CN1989440A - Liquid crystal lens element and optical head device - Google Patents

Liquid crystal lens element and optical head device Download PDF

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Publication number
CN1989440A
CN1989440A CNA200580024666XA CN200580024666A CN1989440A CN 1989440 A CN1989440 A CN 1989440A CN A200580024666X A CNA200580024666X A CN A200580024666XA CN 200580024666 A CN200580024666 A CN 200580024666A CN 1989440 A CN1989440 A CN 1989440A
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liquid crystal
light
optical
lens element
wavelength
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CN100437225C (en
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大井好晴
野村治
垣内利昌
大泽光生
田边让
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AGC Inc
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Asahi Glass Co Ltd
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Abstract

There is provided a liquid crystal lens element not causing a transparent wavefront change in spite of the polarization state of the incident light at OFF state when no voltage is applied and exhibiting the concave lens function for the abnormal light polarized incident light at ON state when voltage is applied. The liquid crystal lens element (10) having a liquid crystal layer (16) sandwiched between two transparent substrates (11, 12) changes the light collection point of light transmitting through the liquid crystal layer (16) according to voltage applied to it. The liquid crystal lens element (10) includes a Fresnel lens (17) having a cross section formed on the transparent substrate (11) has a convex/concave shape, a first transparent electrode (13) formed on a flat surface of the transparent substrate (11) where the Fresnel lens (17) is formed, and a second transparent electrode (14) formed on the flat surface of the other transparent substrate (12).

Description

Liquid crystal lens element and optical-head apparatus
Technical field
No matter the present invention relates under the off-state when not applying voltage the polarization of incident light light state and how all not produce and make the liquid crystal lens element that changes through the corrugated through the variation on corrugated under the on-state when applying voltage, and the optical-head apparatus that can carry out recording of information and/or playback to the different a plurality of optical recording medias of cover thickness.
Background technology
As have the information recording layer that forms on the face of light incident side and cover this information recording layer the tectal optical recording media that forms by transparent resin (below, be called " CD "), the cover thickness that information recording layer is arranged of Pu Jiing (below, be called " cover thickness ") for the CD of 1.2mm with CD (below, be called the CD CD, abbreviate " CD " as) or the cover thickness of information recording layer be 0.6mm DVD with CD (below, be called the DVD CD, abbreviate " DVD " as) etc.On the other hand, as the optical-head apparatus that in the recording of information of CD and/or playback (below, be called " record reproducing "), uses, known have have wavelength X 3(below, be referred to as " the wavelength X of CD 3") optical-head apparatus of 0.45 to 0.50 object lens for the semiconductor laser of 790nm frequency band as light source and NA (numerical aperture).The optical-head apparatus that uses in the record reproducing as DVD uses to have wavelength X in addition 2(below, be referred to as " the wavelength X of DVD 2") optical-head apparatus of 0.6 to 0.65 object lens for the semiconductor laser of 660nm frequency band as light source and NA.
In addition, in recent years, in order to improve the recording density of CD, developed cover thickness and be the CD (below, be called the BD CD, abbreviate " BD " as) of 0.1mm.The optical-head apparatus that uses in the record reproducing of this BD is to have wavelength X 1(below, be referred to as " the wavelength X of BD 1") optical-head apparatus of 0.85 object lens for the blue semiconductor laser of 405nm frequency band as light source and NA.But be to use BD is made wavelength X through optimal design 1The almost nil object lens of wave aberration (below, be called " BD object lens "), when carrying out the record reproducing of DVD and CD, the different big spherical aberrations that cause of cover thickness because of CD appear.As a result, worsen, can not carry out good record reproducing to the focusing of the incident light of information recording layer.Because above-mentioned situation, the 3 small-sized wavelength of having researched and developed using single object lens can carry out the record reproducing of 3 kinds of different CDs of cover thickness exchange optical-head apparatus.As towards realizing that this 3 wavelength exchanges one of optical-head apparatus of optical-head apparatus, proposed to use BD can carry out the optical-head apparatus (for example, opening the 2004-71134 communique) of the record reproducing of DVD with object lens and Fresnel lens with reference to the Jap.P. spy.
This optical-head apparatus uses in the zone suitable with the NA of DVD and forms the holographic grating of stepped cross-section shape as Fresnel lens.This Fresnel lens is formed wavelength X to DVD 2Show the wavelength X of the constituent parts bench height of the shape of concavees lens function (Fresnel lens) and stepped cross-section shape for BD 1Light be equivalent to the optical path difference of 1 wavelength degree approximately, and form one with BD with object lens and use.By like this, constituted the optical-head apparatus that can carry out the record reproducing of BD and DVD.But,, therefore be difficult to carry out the record reproducing of 3 kinds of CDs owing to do not have aberration correction function for CD.
In addition, also proposed by the optical-head apparatus (for example, Jap.P. spy open 2003-207714 communique) of phase compensator minimizing because of the different spherical aberrations that cause of cover thickness of CD, DVD and BD.
In this optical-head apparatus, DVD with the phase compensation face that is formed with the stepped cross-section shape in the zone suitable with the NA of DVD forms the CD phase compensation element of the phase compensation face of stepped cross-section shape with the phase compensation element, in the zone of the NA that is equivalent to CD, and forms the one use with BD with object lens.
With DVD with the constituent parts bench height of the stepped cross-section shape of phase compensation face wavelength X for BD 1And the wavelength X of CD 3Form the bench height of the round number optical path difference doubly that gives wavelength, only make it wavelength X DVD 2Show the spherical aberration compensation function.In addition, with CD with the constituent parts bench height of the stepped cross-section shape of phase compensation face wavelength X for BD 1And the wavelength X of DVD 2Form the bench height of the round number optical path difference doubly that gives wavelength, only make it wavelength X CD 3Show the spherical aberration compensation function.
But, wavelength selectivity for performance hope in each phase compensation element, must use the glass material with special refractive index wavelength dispersion, will be prerequisite to process a plurality of high bench heights accurately simultaneously, therefore is difficult to the stable wavelength that obtains and selects the aberration compensation function.In addition, in order only to compensate spherical aberration, the phase compensation element does not produce the concavees lens function at the interval that enlarges object lens and CD (below, be called " operating distance ").Therefore, when BD is formed the one use with object lens and CD with the phase compensation element, below 0.3mm, be difficult to the record reproducing that when CD rotates CD and object lens do not contact the line stabilization of going forward side by side for the operating distance of CD.
In addition, open the Fresnel lens shape shown in the 2004-71134 communique, can show the concavees lens function by CD is formed as the Jap.P. spy with the phase compensation face of phase compensation element.But in this case, the bench height of jog and number of rings increase, and the wavelength X of the BD that the wall by each bench height causes occurs 1And the wavelength X of DVD 2The diffraction light of high diffracting grade number, the efficient that sees through the corrugated of the concavees lens function that is equivalent to wish reduces, and therefore goes wrong.
As this compensation method of caused spherical aberration, also proposed to use the optical-head apparatus (for example, Japanese patent laid-open 9-230300 communique) of the optical modulation element that is equivalent to liquid crystal lens element because the cover thickness of CD etc. is different.Below, the cross-sectional view of this optical modulation element is shown in Figure 16.
This optical modulation element 100 has 2 transparency carriers 110,120 of almost parallel and the liquid crystal layer of clamping 130 between them, on the face of the liquid crystal side of a side transparency carrier 110, form the jog 140 of Fresnel lens shape, on the face of the liquid crystal side of 2 transparency carriers 110,120, form electrode 150 and alignment films 160 simultaneously with the concentrically ringed shape of glittering.In addition, direction of orientation is not with respect to the transparency carrier almost parallel when applying electric field for liquid crystal layer 130, and direction of orientation is with respect to the transparency carrier approximate vertical when applying electric field.
At this, make the ordinary refraction index n of liquid crystal layer 130 by formation o, unusual optical index n eThe either party and the refractive index n of the jog with the shape of glittering 140 of transparency carrier FAlmost equal structure, thus when not applying electric field when applying electric field, for the unusual incident light of light polarization light, the refractive indices n of liquid crystal layer 130 and jog 140 is at Δ n (=n e-n o) between zero, change.Therefore, the degree of depth by making this jog 140 is as the refractive index n of Δ n * (degree of depth of jog)=(light wavelength in the vacuum), jog 140 FWith n eAbout equally, then for the unusual incident light of light polarization light, the liquid crystal lens element of the off-state of the non-concavees lens function when optical modulation element 100 becomes switching and do not apply voltage on-state of performance concavees lens when applying voltage.
This optical modulation element 100 is integrated with object lens with BD, and be installed in the optical-head apparatus, only when the record reproducing of CD, make optical modulation element 100 become on-state,, can show simultaneously operating distance is extended to concavees lens function more than the 0.3mm because the spherical aberration that the cover thickness difference of CD causes by compensating like this.On the other hand, when the record reproducing of BD and DVD, become off-state, can obtain high-transmission rate by making optical modulation element 100.
But, when the ordinary light polarized light is incident to optical modulation element 100 shown in Figure 16, and whether apply independent from voltage, see through the corrugated according to refractive indices n corresponding change of liquid crystal layer 130 with jog 140.Particularly in the record reproducing of BD and DVD, because the ordinary light polarized light all is incident in the optical modulation element 100 with unusual light polarization light, therefore the problem that produces is, makes through the wave aberration deterioration, can not record reproducing.
In addition, in the past, the information recording layer of the general DVD CD that uses was individual layer (hereinafter referred to as " an individual layer DVD CD "), and overlayer is 0.6mm.But, in recent years, in order to increase the quantity of information of each sheet CD, also developed the CD (hereinafter referred to as " DVD-dual layer CD ") that information recording layer is formed two-layer (reset special-purpose or can reset and write down), in this double-layer CD, be that the position of 0.57mm and 0.63mm forms information recording layer in the cover thickness of light incident side.
For the BD CD too, except information recording layer be individual layer, cover thickness be 0.1mm (below, be called " individual layer BD CD ") outside, in order to increase the quantity of information of each sheet CD, also developed double-layer CD (below, be called " double-deck BD CD "), be the position formation information recording layer of 0.100mm and 0.075mm in the cover thickness of light incident side.
Like this, have in employing single-layer optical disc (being individual layer DVD CD or individual layer BD CD) is carried out optimal design, made that aberration is that the optical-head apparatus of zero object lens carries out under the situation of record reproducing double-layer CD (being DVD-dual layer CD or double-deck BD CD), if cover thickness difference, then because of the corresponding generation spherical aberration of difference of cover thickness, the focusing of the incident light of information recording layer is worsened.Particularly the problem that produces in the double-layer CD of recordable type is, the deterioration of focusing reduces the corresponding focusing power density in when record that makes, and causes write error.
Therefore, by way of compensation owing to the method for the different spherical aberrations that cause of cover thickness of double-layer CD etc., the optical-head apparatus of putting down in writing in the Japanese patent laid-open 10-269611 communique for example with wave aberration compensation system is proposed also.In this optical-head apparatus, use arc (segment) liquid crystal board that compensates the spherical aberration component of corresponding generation as the recording layer according to multilayer disc shown in Figure 2 of Japanese patent laid-open 10-269611 communique at interval.
But, only compensate under the situation of spherical aberration component, when using the liquid crystal board of object lens and setting in addition, the problem of the coma aberration that appearance is caused by the off-centre of object lens two elements of generation when following the tracks of.For fear of this problem, for example liquid crystal board and object lens are formed one and use though consider to adopt, but the problem that exists when adopting such structure is, the load of the movable driver of object lens is increased, apply the voltage mechanism complexity that also becomes to liquid crystal board simultaneously.
In addition, be purpose by the different caused spherical aberrations of cover thickness of double-layer CD etc. equally with compensation, proposed to open the aberration compensation device of putting down in writing in the 2004-103058 communique the Jap.P. spy.
In this aberration compensation device, open the shown in Figure 2 of 2004-103058 communique as the Jap.P. spy, use aberration compensation assembly (unit), this aberration compensation assembly be by the recording layer of compensation and multilayer disc at interval the coarse adjustment of big corresponding big aberration form assembly with the arc liquid crystal cells of microcall of holographic liquid crystal cells (cell) and compensation and the corresponding spherical aberration of tectal correlated error.At this, holographic liquid crystal cells is formed the liquid crystal fresnel lens of the transparency electrode that is provided with liquid crystal and can disposes to liquid crystal applied voltages in the both sides of liquid crystal, this liquid crystal is enclosed glass substrate and cross sectional shape is between the jagged glass substrate, and the cross sectional shape of diffraction grating has the jagged holographic shape of glittering.Electrode is formed by not divided uniform transparent conductive material.
But, under the situation of this holography liquid crystal cells, form transparency electrode owing to be processed to the surface of jagged glass substrate on the surface, therefore break easily, be difficult to make stable low-resistance transparency electrode.
In addition, in recent years, in order to improve the recording density of CD, developed the CD that cover thickness and DVD be similarly 0.6mm (below, be called the HDDVD CD, abbreviate " HD " as), it is the optical-head apparatus of 0.65 object lens that this CD uses blue semiconductor laser with wavelength 405nm frequency band and NA.But because HDDVD is different with the cover thickness of BD, therefore the problem that produces is, can not use the record reproducing of BD with the HDDVD of object lens, perhaps can not use the record reproducing of HDDVD with the BD of object lens.
The announcement of invention
The present invention is the invention of In view of the foregoing finishing, its objective is under the off-state that is provided at when not applying voltage no matter the polarization of incident light light state how all not occur seeing through the corrugated changes and under the on-state when applying voltage to the unusual liquid crystal lens element of light polarization light incident light performance concavees lens function.Its purpose also is in addition, is installed in the optical-head apparatus by this liquid crystal lens element is formed one with the object lens that BD carried out optimal design, and the optical-head apparatus of the stable recording playback that realizes BD, DVD and CD is provided.
In addition, the present invention also aims to, by using liquid crystal lens element, can realize not having the miniaturized component of movable part, also provide simultaneously and can compensate the spherical aberrations that cause because of the cover thickness in individual layer and the double-layer CD is different, can carry out the stable record and/or the optical-head apparatus of playback.
In addition, the present invention also aims to,, provide the BD/HDDVD that can carry out record reproducing to exchange optical-head apparatus the CD of BD and HDDVD for having BD with the optical-head apparatus that object lens or HDDVD use object lens.
The invention provides following content.
1. liquid crystal lens element, it is to possess a pair of transparency carrier of subtend and liquid crystal layer that liquid crystal is clamped by described transparency carrier, and the liquid crystal lens element that the focus point of the light that sees through described liquid crystal layer changed according to the size of the voltage that described liquid crystal layer is applied, it is characterized in that
Possess,
Fresnel lens is formed on an above-mentioned side's the tabular surface of transparency carrier and transparency carrier subtend the opposing party, has the jog that the cross section is a concaveconvex shape,
The 1st transparency electrode, described the 1st transparency electrode are formed at the surface of the jog of a described side's who constitutes described Fresnel lens the tabular surface of Fresnel lens bottom of transparency carrier or described Fresnel lens,
The 2nd transparency electrode, described the 2nd transparency electrode are formed at the tabular surface of described the opposing party's a transparency carrier and transparency carrier subtend described side;
The substantial refractive index n (V) of described liquid crystal layer is according to the size of the voltage V that applies between described the 1st transparency electrode and the 2nd transparency electrode, the refractive index of the on-state of the variations in refractive index of the off-state of (V=0) when applying voltage when very the incident light of light polarization light never applies voltage, simultaneously, how to be ordinary refraction index n for the incident light of the ordinary light polarized light voltage of no matter exerting pressure o, and,
Satisfy each condition in following (1)~(3),
(1) described liquid crystal layer is that dielectric anisotropy is the nematic crystal of bearing, and the direction of orientation of the liquid crystal molecule of described off-state is vertical or subvertical angle with respect to the surface of described Fresnel lens, and simultaneously, described Fresnel lens is by refractive index n FFor with the ordinary refraction index n of described liquid crystal layer oThe homogeneous refraction materials of identical or approaching with it value forms,
(2) described liquid crystal layer is that dielectric anisotropy is positive nematic crystal, the direction of orientation of the liquid crystal molecule of described off-state is parallel or approaching parallel state with respect to the surface of described Fresnel lens, simultaneously, described Fresnel lens is made of birefringent material, the very optical index n of this material FeValue and the very optical index n of liquid crystal layer e(n e≠ n o) identical or approaching, and its ordinary refraction index n Fo(n Fe≠ n Fo) value and the ordinary refraction index n of described liquid crystal layer oIt is identical or approaching,
(3) described liquid crystal layer is that dielectric anisotropy is positive nematic crystal, the direction of orientation of the liquid crystal molecule of described off-state is parallel or approaching parallel state with respect to the surface of described Fresnel lens, simultaneously, described Fresnel lens is by the value of refractive index and the very optical index n of described liquid crystal layer eIdentical or approaching homogeneous refraction materials forms, and, a side of described a pair of transparency carrier, be formed for offsetting under the above-mentioned off-state to the incident light of the ordinary light polarized light of described liquid crystal lens element and see through the polarized light Fresnel lens of the phase differential that is produced between the light.
By forming such liquid crystal lens element, no matter how the polarization of incident light light state does not all change under off-state on the corrugated that sees through of the incident light of liquid crystal lens element, but under on-state, change, can under on-state and off-state, switch focal length for the unusual incident light of light polarization light.In addition, angle of approach, the state in this what is called " vertical or subvertical angle ", " parallel or approaching parallel state " is that span vertical angle or parastate are spent with the interior meaning 5 respectively.In addition, the approaching value in so-called " identical with refractive index n or approaching with it " is meant 3% meaning with interior difference in refractive index.
2. as above-mentioned 1 described liquid crystal lens element, it is characterized in that, for 3 kinds of different wave length λ of incident 1, λ 2, λ 31<λ 2<λ 3), at least one side's of described a pair of transparency carrier substrate, forming the phase compensation face that constitutes by a plurality of steps, a bench height of described step is with respect to wavelength X 1And λ 3Be the optical path difference of the integral multiple of wavelength or the value approaching with it, and with respect to wavelength X 2Non-integral multiple optical path difference for wavelength.
By using such liquid crystal lens element, utilize phase compensation face to show, in off-state only to wavelength X 2Incident light and the irrelevant aberration compensation function of its polarized light state.In addition, the approaching value in so-called " integral multiple of wavelength or the value approaching with it " is meant 5% meaning with interior difference at 1 wavelength.
3. the invention provides optical-head apparatus, it is to have light source, to assemble object lens to the different optical recording media of tectal thickness from the emergent light of described light source, and detection is by the optical-head apparatus of the photodetector of the light that is reflected by the information recording layer of described optical recording media behind the described object lens optically focused, it is characterized in that, configuration above-mentioned 1 or 2 described liquid crystal lens elements in the light path between described light source and described object lens, described liquid crystal lens element have by making the wave front that sees through that produces under the on-state change the function that compensates the wave aberration that occurs for described optical recording media, and the concavees lens function that enlarges interval between object lens and the above-mentioned optical recording media.
By using such optical-head apparatus, in the record reproducing of the different a plurality of CDs of cover thickness, can under the on-state of liquid crystal lens element, compensate the wave aberration that the difference because of cover thickness occurs, and can enlarge operating distance.As a result, can use the stable record reproducing that carries out a plurality of CDs of single object lens and liquid crystal lens element.
4. optical-head apparatus, it is the light source with the light that penetrates wavelength X, to assemble object lens to the optical recording media from the emergent light of described light source, will be by the optical splitter of the light partial wave that is reflected by described optical recording media behind the described object lens optically focused, and detect above-mentioned by the optical-head apparatus of the photodetector of the light of partial wave, it is characterized in that, described optical recording media has the different a plurality of information recording layers more than 2 layers of tectal thickness, above-mentioned 1 described liquid crystal lens element is set in the light path between described light source and described object lens, off-state by the described liquid crystal lens element of conversion and on-state apply voltage, carry out record and/or playback to the different information recording layer of above-mentioned tectal thickness.
5. as above-mentioned 4 described optical-head apparatus, it is characterized in that, described liquid crystal lens element is made of the 1st liquid crystal lens portion and the 2nd liquid crystal lens portion, the the 1st and the 2nd liquid crystal lens portion all possesses Fresnel lens, the 1st transparency electrode that on the tabular surface of a described side's who is formed with described Fresnel lens transparency carrier, forms, and the 2nd transparency electrode that on the tabular surface of described the opposing party's a transparency carrier and transparency carrier subtend described side, forms, described Fresnel lens is formed on a described side's the tabular surface of transparency carrier and transparency carrier subtend the opposing party, the cross section is a concaveconvex shape, by the value of refractive index and the ordinary refraction index n of described liquid crystal layer oIdentical or approaching homogeneous refraction materials forms, the jog that has, described liquid crystal layer is that medium anisotropy is the nematic crystal of bearing, the direction of orientation of the liquid crystal molecule of described off-state is vertical or subvertical state with respect to the surface of described Fresnel lens, simultaneously, the substantial refractive index n (V) of liquid crystal layer is according to the size of the voltage V that applies between described the 1st transparency electrode and the 2nd transparency electrode, the refractive index of the on-state of the variations in refractive index of the off-state of (V=0) when applying voltage when very the incident light of light polarization light never applies voltage, simultaneously, how to be ordinary refraction index n for no matter the exert pressure size of voltage of the incident light of ordinary light polarized light o, described the 1st liquid crystal lens portion under the on-state is vertical mutually with the direction of the ordinary refraction index of the liquid crystal layer of described the 2nd liquid crystal lens portion.
By using such optical-head apparatus,, can realize that the CD with the different a plurality of information recording layers more than 2 layers of the different tectal thickness of cover thickness carries out stable record reproducing regardless of the polarization of incident light light state
By the present invention, under the off-state when not applying voltage, regardless of the polarization of incident light light state, the corrugated of the emergent light of liquid crystal lens element does not change, and straight line sees through, and can obtain high transmissivity.On the other hand, under the on-state when applying voltage, can show lens function to the unusual incident light liquid crystal lens element of light polarization light.Therefore, by the connection disconnection of voltage, can switch having or not of lens function.
In addition,,, use liquid crystal lens element, can realize the record reproducing of CD in off-state for BD and DVD by having the optical-head apparatus of such liquid crystal lens element.In addition,, use liquid crystal lens element, can make it to show the concavees lens function, can compensate the wave aberration that the difference because of cover thickness causes, also operating distance is expanded to more than the 0.3mm simultaneously, can realize stable record reproducing in on-state for CD.
In addition because by having the optical-head apparatus of this liquid crystal lens element, can compensate effectively in single-layer optical disc that BD or CD use and double-layer CD, occur because of the different wave aberrations that cause of cover thickness, therefore can stably carry out record reproducing.
In addition, have this liquid crystal lens element and BD usefulness or HDDVD optical-head apparatus, can realize the exchange optical-head apparatus of BD and HDDVD with object lens by formation.
The simple declaration of accompanying drawing
The longitudinal section of the formation of the liquid crystal lens element of the 1st embodiment that [Fig. 1] demonstration the present invention relates to.
[Fig. 2] shows the cross-sectional view of the formation of liquid crystal lens element shown in Figure 1.
[Fig. 3] shows the diagrammatic sketch of the optical path difference that sees through the corrugated that liquid crystal lens generated that is related to by the 1st embodiment, α is for being the curve of unit representation with transverse axis with the wavelength X as radius r, with optical path difference, β is the curve that α deducts the following optical path difference of conduct-λ behind the integral multiple of wavelength X above zero, and γ not have the zero curve of display light path difference that changes for seeing through the corrugated.
Enlarged drawing between the transparency electrode in the outboard profile of [Fig. 4] liquid crystal lens element of the present invention.
The longitudinal section of the formation of another liquid crystal lens element of the 1st embodiment that [Fig. 5] demonstration the present invention relates to.
The longitudinal section of the formation of the liquid crystal lens element of the 2nd embodiment that [Fig. 6] demonstration the present invention relates to.
The partial enlarged drawing of the wave aberration of the wave aberration compensating action of the DVD usefulness phase compensation face of the liquid crystal lens element of the 2nd embodiment that [Fig. 7] demonstration the present invention relates to.
[Fig. 8] be show to switch to the liquid crystal lens element of the 2nd embodiment apply voltage the time the key diagram of effect, (A) show and apply voltage V OThe time wavelength X 1Do not have a corrugated that sees through that the corrugated changes, (B) show to apply voltage V OThe time wavelength X 2Disperse and see through the corrugated, (C) show to apply voltage V PThe time wavelength X 3Disperse and see through the corrugated.
[Fig. 9] shows the pie graph of the optical-head apparatus of the 3rd embodiment that liquid crystal lens element of the present invention has been installed.
The longitudinal section of the formation of the liquid crystal lens element of the 4th embodiment that [Figure 10] demonstration the present invention relates to.
[Figure 11] shows the cross-sectional view of the formation of liquid crystal lens element shown in Figure 10.
[Figure 12] shows the pie graph of the optical-head apparatus of the liquid crystal lens element that the 4th embodiment that the present invention relates to has been installed.
[Figure 13] shows the pie graph of a part of the optical-head apparatus of the liquid crystal lens element that the 4th embodiment that the present invention relates to has been installed.
[Figure 14] shows the embodiment 3 of the optical-head apparatus that the liquid crystal lens element that the present invention relates to has been installed and the figure of the wave aberration performance computation value of example in the past.
[Figure 15] shows the embodiment 4 of the optical-head apparatus that the liquid crystal lens element that the present invention relates to has been installed and the figure of the wave aberration performance computation value of example in the past.
[Figure 16] shows the longitudinal section of the configuration example of optical modulation element (liquid crystal diffraction lens) in the past.
[explanation of symbol]
1 semiconductor laser (light source)
2 polarised light splitters
3 close the ripple prism
4 collimation lenses
The 5BD object lens
6 photodetectors
7 drivers
The 8ACD assembly
The 8BDVD assembly
9 close the ripple prism
10,20,30 liquid crystal lens elements
11,12,12C, 12D, 21,31,310,320 transparency carriers
13,13C, 13D the 1st transparency electrode
14,14C, 14D the 2nd transparency electrode
15,15C, 15D containment member
16,16C, 16D liquid crystal layer
17,17C, 17D jog (Fresnel lens)
18 diffraction grating
19 dielectric multilayer films
22 polarized light Fresnel lenses
23 transparent adhesive material
32 phase compensation faces
33 phase-plates
40 optical-head apparatus
51 1/4 wavelength plates
The D CD
D1, D2 information recording layer
The best mode that carries out an invention
Below, embodiments of the present invention are described with reference to the accompanying drawings.
[the 1st embodiment]
The configuration example that outboard profile that reference is shown in Figure 1 and planimetric map shown in Figure 2 illustrate the liquid crystal lens element 10 that the 1st embodiment of the present invention is related.
The liquid crystal lens element 10 of present embodiment has transparency carrier 11 and 12, the 1st transparency electrode the 13, the 2nd transparency electrode 14, containment member 15, liquid crystal layer 16, jog 17 and diffraction grating 18.
Wherein, jog 17 is Fresnel lenses or has the Fresnel lens that is similar to stepped shape, utilizes refractive index n FTransparent material be formed on numerical aperture NA with CD 3=0.50 suitable effective diameter zone, and the optical axis (Z axle) of incident light had rotational symmetry.On the other hand, diffraction grating 18 is formed on the numerical aperture NA that removes DVD 2Outside the numerical aperture NA that comprises BD 1The zone on, have wavelength X to BD 1=405nm produces the rectangular cross sectional shape of the grating degree of depth of the phase differential suitable with 1 wavelength.If form such structure, work as wavelength X 1Light when being incident to diffraction grating 18, diffraction does not take place but straight line sees through.On the other hand, work as wavelength X 2=660nm and wavelength X 3During the light incident of=790nm, most light is diffracted, and the light that straight line sees through is below 15%.That is wavelength X, 1The incident light straight line see through the numerical aperture NA of transparency carrier 12 1Zone Full, wavelength X 2And wavelength X 3Incident light only straight line see through numerical aperture NA 2The zone, show the aperture control function of wavelength selectivity.
Below, carry out following explanation for an example of the manufacturing process of this liquid crystal lens element 10.
At first, go up at a side's of transparency carrier 11 tabular surface (upper surface among Fig. 1) and form the 1st transparency electrode 13.Numerical aperture NA on this transparency electrode 13 again 3The zone, use refractive index n FTransparent material form jog 17.
On the other hand, on a side's of transparency carrier 12 surface (upper surface among Fig. 1), removing numerical aperture NA 2=0.65 comprise numerical aperture NA 1=0.85 zone forms diffraction grating 18.As previously mentioned, this diffraction grating 18 is processed into, to the wavelength X of BD 1=405nm produces the concavo-convex grating of rectangular cross sectional shape of the grating degree of depth of the phase differential suitable with 1 wavelength.In addition, on the surface of the diffraction grating 18 of formation transparency carrier 12, form wavelength X 1, λ 2, λ 3Reflectivity at the antireflection film below 0.5%.
Further, after the opposing party's of transparency carrier 12 real estate is made the 2nd transparency electrode 14, will sneak into the outer jointing material printing figures of diagram of gap control material, form containment member 15, overlap crimping making dummy cell with aforesaid transparency carrier 11.
Then, inject from the inlet (not shown) of the part that is arranged on containment member 15 and have ordinary refraction index n oUnusual optical index n e(wherein, n o≠ n e) nematic crystal, then, seal this inlet, sealing liquid crystal in the unit, is formed liquid crystal layer 16, form the liquid crystal lens element 10 of present embodiment.
In addition, in the present embodiment, in order to apply voltage to the 2nd transparency electrode 14 by the electrode 14A that is formed on transparency carrier 11 sides, in advance the conductive metal particle is sneaked into containment member 15 back crimping containment members, show electric conductivity at the containment member thickness direction, make the 2nd transparency electrode 14 and electrode 14A conducting.The electrode 13A that will be connected with the 1st transparency electrode 13 is connected with the AC power of outside with the electrode 14A that is connected with the 2nd transparency electrode 14, applies alternating voltage to liquid crystal layer 16.
By like this, apply alternating voltage V to the 1st transparency electrode 13 and the 2nd transparency electrode 14 of liquid crystal lens element 10, thereby according to the voltage V that is applied to liquid crystal layer 16 LC, the orientation of liquid crystal molecule is corresponding to change, and the substantial refractive index of liquid crystal layer 16 changes.Here, the what is called of liquid crystal layer 16 " substantial refractive index " means, the mean refractive index to the liquid crystal layer 16 of polarization of incident light light direction is equivalent to (optical length) ÷ (thickness of liquid crystal layer).Its result is to the specific rectilinearly polarized light of incident light, according to voltage V LCSize, the substantial refractive index n (V of liquid crystal layer 16 LC) corresponding changing, the corrugated that sees through light of liquid crystal lens element 10 changes.
The electricalresistivity of the material of jog 17 FElectricalresistivity with liquid crystal layer 16 LCCompare in the time of can not regarding fully little value as, for the 1st transparency electrode 13 and the 2nd transparency electrode 14 apply voltage V, the voltage that jog 17 will occur reduces, actual be applied to liquid crystal layer 16 voltage V LCDescend.
When jog 17 and liquid crystal layer 16 for can regard the big resistivity of electrical insulator as the time, apply the electric capacity C of voltage V according to jog 17 FElectric capacity C with liquid crystal layer 16 LCDistribute, decide the voltage V that is applied to liquid crystal layer 16 LCThat is, since the ratio of the thickness of jog of clamping according to the 1st transparency electrode 13 and the 2nd transparency electrode 14 17 and liquid crystal layer 16, electric capacity C FAnd C LCChange, so voltage V LCAnd refractive index n (V LC) distribute, can be according to the mean refractive index of 13,14 of the shape adjustments transparency electrodes of jog 17, be optical length.Its result, according to the Fresnel lens shape of jog 17, exist incident light see through that the corrugated represents magnification component (lens function) apply voltage V PBy like this, can obtain applying voltage V and switch liquid crystal lens element 10 through the focus point of light by switching.
In addition, for to voltage V LCObtain the big variation of the substantial refractive index of liquid crystal layer 16, preferably the molecular orientation direction of liquid crystal layer 16 is consistent with the interface of transparency carrier.For the direction of orientation of liquid crystal molecule is consistent in a certain direction, need only oriented materials (not shown) such as surface coated polyimide at the 2nd transparency electrode 14 and jog 17, solidify the back and get final product along the X-direction friction treatment.
Material as jog 17 also can use polyimide, and friction treatment is made on its surface.Except the friction treatment of polyimide, also oblique vapor-deposited film of SiO or optical alignment film etc. can be used as oriented material, and with the orientation unanimity of liquid crystal molecule.
Here, the jog 17 that is formed by transparent material of Fresnel lens shape can be ultraviolet curable resin or organic materials such as heat reactive resin, photoresist, also can be SiO 2, Al 2O 3Or SiO xN y(wherein, x, y represent the elemental ratio of O and N.) etc. inorganic material.In addition, also can be homogeneous refraction materials or birefringent material.After can forming the transparent material layer of regulation thickness at the tabular surface of transparency carrier 11, utilize technology such as photoetching or reactive ion etching to be processed into the concavo-convex jog 17 that forms, also can form jog 17 to transparent material layer transfer printing jog shape with metal die.
In addition, the 1st transparency electrode 13 and the 2nd transparency electrode 14 be not when applying voltage under the off-state of (V=0), in order to obtain to the incident light of ordinary light polarized light (direction of polarized light is the polarization plane of Y direction) and liquid crystal lens element 10 see through the function that the corrugated not have variation (not having magnification), make the refractive index n of jog 17 FSubstantial refractive index n (V with liquid crystal layer 16 LC=0) almost equal.
The direction of orientation of the liquid crystal molecule of the liquid crystal layer 16 when not applying voltage has for example following 3 kinds.
(i) as the relative dielectric constant ε that uses the long axis of liquid crystal molecule direction //Dielectric anisotropy Δ ε (=ε with the difference of the relative dielectric constant ε  of liquid crystal molecule short-axis direction //During-ε ) for negative liquid crystal, the direction of the direction of orientation of liquid crystal and the electric field that generates perpendicular to applying voltage (that is unusual optical index n, eDirection) unanimity.Among Fig. 1, the alignment films such as polyimide (not shown) in the direction of orientation approximate vertical surperficial with it of the surface coated liquid crystal molecule of jog 17 and the 2nd transparency electrode 14 make it to solidify again, and carry out friction treatment along X-direction.Liquid crystal molecule when as a result, not applying voltage becomes with surface with respect to jog 17 and the 2nd transparency electrode 14 and is consistent vertical orientated of approximate vertical direction.At this moment, (direction of polarized light is the polarization plane of X-direction to unusual light polarization light.Polarization plane in the X-Z face) incident light, the substantial refractive index n (0) of liquid crystal layer 16 becomes ordinary refraction index n o, along with voltage V LCIncrease, move closer to very optical index n e
(ii) using dielectric anisotropy Δ ε is positive liquid crystal, in Fig. 1, the direction of orientation that forms liquid crystal molecule on the surface of the 2nd transparency electrode 14 and jog 17 is along being roughly parallel to jog 17 horizontal alignment film consistent with the direction on the surface of the 2nd transparency electrode 14, and the direction of orientation of liquid crystal molecule is parallel-oriented along the X-direction unanimity.At this moment, to the unusual incident light of light polarization light, the substantial refractive index n (0) of liquid crystal layer 16 becomes the very optical index n of liquid crystal e, along with voltage V LCIncrease, move closer to ordinary refraction index n o
(iii) using dielectric anisotropy Δ ε is positive liquid crystal, in Fig. 1, forms vertical alignment layer on the surface of jog 17.On the other hand, form along the horizontal alignment film of X-direction on the surface of the 2nd smooth transparency electrode 14 through friction treatment.As a result, the direction of orientation of liquid crystal molecule becomes the surface of jog 17 consistent in an approximate vertical direction and to the surface of the 2nd transparency electrode 14 orientation that blendes together along almost parallel direction unanimity.At this moment, for the unusual incident light of light polarization light, the substantial refractive index n (0) of liquid crystal layer 16 becomes the very optical index n of liquid crystal eWith ordinary refraction index n oMean value, i.e. (n e+ n o)/2 are along with voltage V LCIncrease, move closer to ordinary refraction index n o
Below, carry out following detailed description to Fresnel lens or with the cross sectional shape of the jog 17 of stepped approximate Fresnel lens.
Liquid crystal lens element 10 of the present invention is installed in the optical-head apparatus, when applying voltage V to the 1st transparency electrode 13 and the 2nd transparency electrode 14 PDuring for on-state, generate the corrugated that sees through of compensation and the spherical aberration that cause different, also generated the corrugated that sees through of giving negative magnification component (concavees lens function) that enlarges operating distance simultaneously by the cover thickness of CD.At this moment, for the corrugated that sees through of the plane wave of the very light polarization light that is incident to liquid crystal lens element 10, by (true origin: the optical path difference OPD of light that light x=y=0) departs from the position of radius r represents with the power series shown in (1) formula with respect to optical axis center.
OPD(r)=a 1r 2+a 2r 4+a 3r 6+a 4r 8+…
…(1)
R wherein 2=x 2+ y 2
a 1, a 2, (aftermentioned, jog 17 for [table 1] is constant
The number, phase compensation face 32[table 2] coefficient)
Table 1
Coefficient Value
a 1 -18.1374
a 2 -0.1392
a 3 0.5976
a 4 -0.3808
a 5 0.0887
And
Table 2
Coefficient Value
a 1 3.4553
a 2 1.0111
a 3 0.1811
a 4 -0.0164
a 5 0.0074
At this, represent the concrete example of the curve of (1) formula with the symbol among Fig. 3.In addition, transverse axis represents that with radius r the longitudinal axis is with the unit representation optical path difference OPD of the wavelength X of incident light, and the curve representation of α contains the cross section of the central shaft (r=0) of (1) formula.
The corrugated that sees through of optical path difference that has the integral multiple of λ for the incident light of wavelength X is considered to equal, therefore curve shown in the α of Fig. 3 (optical path difference) is separated, represent that the curve β of optical path difference of the face projection (parallel mobile) to optical path difference zero is identical in fact with curve α with the interval of wavelength X.On the other hand, the optical path difference shown in the curve β all at λ with interior (among the figure from the-λ scope to zero), become Fresnel lens shape.This is corresponding with the Fresnel lens shape of jog 17 in the liquid crystal lens element 10 shown in Figure 1.In addition, the curve representation shown in the γ of Fig. 3 is the zero corrugated that sees through through the optical path difference that the corrugated does not have to change.
In the liquid crystal lens element 10 shown in Figure 1, the substantial refractive index n (V of liquid crystal layer 16 under on-state P) with the refractive index n of jog 17 FMagnitude relationship be n (V P)>n FThe time, become protruding Fresnel lens shape by making central part shown in Figure 1, thus the effect of performance concavees lens.On the other hand, as n (V P)<n FThe time, become protruding Fresnel lens shape by making Fig. 1 and XY in the face of the central part that claims, the effect of performance convex lens.
But, as the electricalresistivity of jog 17 and liquid crystal 16 F, ρ LCIn the time of can regarding the resistivity greatly of electrical insulator as, in equivalent electrical circuit, by the electric capacity C of jog 17 and liquid crystal layer 16 F, C LCDecision is to the voltage distribution of jog 17 and liquid crystal layer 16.
Therefore, the relative dielectric constant that is made as f, jog 17 when the a-c cycle of the alternating voltage V that will apply between transparency electrode is made as ε F, thickness is made as d F, liquid crystal layer 16 the relative dielectric constant of liquid crystal be made as ε LC, bed thickness is made as d LCThe time, as f * ε O* ρ F* ε FAnd f * ε O* ε ρ LC* ε LCRespectively fully greater than 1 o'clock, use jog 17 between the 1st transparency electrode 13 and the 2nd transparency electrode 14 and liquid crystal layer 16 amplification sectional view, be Fig. 4, following explanation is carried out in the effect of liquid crystal lens element 10.In addition, ε OBe the specific inductive capacity in the vacuum.In addition, if the interval of the 1st transparency electrode 13 and the 2nd transparency electrode 14 is made as G, the thickness d of jog 17 then FBed thickness d with liquid crystal 16 LCSum (d F+ d LC) be definite value G.
Apply voltage V with respect to exchanging between the 1st transparency electrode 13 and the 2nd transparency electrode 14, apply voltage V to what liquid crystal layer 16 distributed LCRatio V LC/ V is shown below.
V LC/v=C F/(C F+C LC)
=1/(1+(ε LCF)×(d F/d LC))
…(2)
At this, because the thickness d of jog 17 FWith the zigzag that forms Fresnel lens or corresponding with the cross sectional shape of the approximate sawtooth of stairstepping, distribute in scope from zero to d, so d F/ d LCDistribute in scope from zero to d/ (G-d).Its result, liquid crystal layer 16 apply voltage V LCCarrying out corresponding space according to the shape of jog 17 distributes.
In order efficiently to apply voltage, preferably adopt relative dielectric constant ε to liquid crystal layer 16 FThe material of big jog 17 makes the ratio V of (2) formula LC/ V increases.Because the relative dielectric constant ε of liquid crystal layer 16 LCAbout more than 4, so jog 17 is preferably the relative dielectric constant ε more than 4 F
In addition, because liquid crystal has dielectric constant anisotropy, the relative dielectric constant ε of long axis of liquid crystal molecule direction //Different with the relative dielectric constant ε  of liquid crystal molecule short-axis direction, therefore follow and apply voltage, changing appears in the orientation of liquid crystal molecule, by the change in orientation of liquid crystal molecule, the relative dielectric constant ε of liquid crystal layer 16 LCAlso change.Therefore, in (2) formula, according to relative dielectric constant ε LC, V LCChange accordingly, determine with the shape corresponding liquid crystal layer 16 of jog 17 apply voltage V LCSpace distribution.Because V LCDepend on thickness d F, so following table is shown V LC[d F].
In addition, V LC[0] with transparency electrode between the voltage V that applies equate.
Therefore, according to the thickness d of jog 17 FDistribution, for the unusual substantial refractive index n (V of the liquid crystal layer 16 of the incident light of light polarization light LC[d F]) space distribution appears.Among Fig. 4, the thickness d of jog 17 FThe 1st transparency electrode 13 of position and the optical length between the 2nd transparency electrode 14 be { n F* d F+ n (V LC[d F]) * d LC, with respect to the Fresnel lens center (d of jog 17 F=d) optical length { n F* d+n (V LC[d]) * (G-d) optical path difference OPD shown in (3) formula.
OPD=n F×(d F-d)+n(V LC[d F])×(G-d F)
-n(V LC[d])×(G-d)
…(3)
In addition, thickness d FDistributing to zero scope from d, optical path difference OPD is from the zero optical path difference OPD to (4) formula 0Scope distribute.
OPD 0={n(V)-n(V LC[d])}
×G-{n F-n(V LC[d])}×d
…(4)
For example, for applying voltage V P, for wavelength X to CD 3Incident light generate the optical path difference that see through corrugated suitable with the curve β of Fig. 3, as long as determine the interval G of the thickness d of the jog 17 that forms at transparency carrier 11 and the 1st transparency electrode 13 and the 2nd transparency electrode 14 that on transparency carrier 12, forms, make optical path difference OPD 0Be roughly λ 3, making jog 17 be thickness simultaneously is that zero cross sectional shape to d gets final product.At this, jog 17 is processed into Fresnel lens shape, make optical path difference OPD 0Wavelength X with CD 3About equally, promptly become 0.75 λ 3To 1.25 λ 3
At this, apply voltage V for off-state and on-state O(=0), V P, the plane wave that is incident to the very light polarization light of liquid crystal lens 10 becomes respectively and carries out outgoing as the curve γ of Fig. 3 and the corrugated that sees through shown in the β.That is, obtained according to the 1st transparency electrode 13 and the 2nd the applying voltage of transparency electrode 14 and off-state do not have magnification, on-state for and the corresponding lens function of negative magnification.
On the other hand, when the rectilinearly polarized light of the incident light of liquid crystal lens element 10 is the ordinary light polarized light, aforesaid vertical orientated, parallel-oriented and mix under any situation of (hybrid) orientation, the substantial refractive index of liquid crystal layer 16 becomes ordinary refraction index n o, how the size that no matter applies voltage V does not all change.At this moment, the optical path difference OPD shown in (3) formula becomes { (n o-n F) * (d-d F), as (n o-n F) when non-vanishing, according to the thickness d of jog 17 FDistribution, the corrugated that sees through of liquid crystal lens element 10 produces respective change.To the unusual incident light of light polarization light, because off-state (V=V LC[d F]=V LC[d]=0), is the condition of no magnification, therefore by the refractive index n of (3) formula to the very light polarization light of jog 17 FBe n F=n (0), n when liquid crystal layer 16 is vertical orientated F=n o, n when parallel-oriented F=n e, n during for hybrid orientation F=(n o+ n e)/2.
Therefore, when jog 17 is the homogeneous refraction materials, for the incident light of ordinary light polarized light, (n when vertical orientated o-n F) be zero, parallel-oriented and hybrid orientation is respectively (n o-n e) and (n o-n e)/2 corrugated that sees through that the distribution by optical path difference OPD causes occurs and change.
For the space distribution of the optical path difference OPD that makes incident light to such ordinary light polarized light not occur to fix, preferably adopt the formation of liquid crystal lens element as described below 10.
Constitute as the 1st, the transparent material that is jog 17 uses birefringent materials such as high molecule liquid crystal, adjust, make under off-state the refractive index of the liquid crystal layer 16 of the very light polarization light of liquid crystal layer 16 and ordinary light polarized light consistent with the refractive index of jog 17.Be such formation specifically, promptly adopt birefringent material, this birefringent material is for unusual light polarization light, concavo-convex 17 ones refractive index n FeEquate with the substantial refractive index n (0) of the off-state of liquid crystal layer 16, and for the ordinary light polarized light, the refractive index n of jog 17 FoOrdinary refraction index n with liquid crystal layer 16 oEquate,, the space distribution of optical path difference OPD all do not occur regardless of the polarization of incident light light state.For example, when forming jog 17, as long as make the ordinary refraction index n of high molecule liquid crystal by high molecule liquid crystal FoUnusual optical index n FeOrdinary refraction index n with the liquid crystal of parallel-oriented liquid crystal layer 16 oUnusual optical index n eUnanimity gets final product the high molecule liquid crystal edge direction orientation identical with the liquid crystal molecular orientation at the interface of liquid crystal layer 16 and jog 17.
Then, as the 2nd formation (variation of the liquid crystal lens element 10 of Fig. 1), be the sectional view that has shown the liquid crystal lens element 20 among Fig. 5.In the liquid crystal lens element 20, in order to offset the fixing optical path difference OPD of the liquid crystal lens element 10 that the incident light of ordinary light polarized light is occurred, on transparency carrier 21, formed the polarized light Fresnel lens 22 that constitutes by birefringent material as the polarized light phase compensation layer.
At this, the manufacture method of this transparency carrier 21 and polarized light Fresnel lens 22 at first has been described, be that the single face (being downside among Fig. 5) at transparency carrier 21 is made the alignment films through orientation process, shape is divided the high molecule liquid crystal film of quantum orientation along the Y direction unanimity.This high molecule liquid crystal film is processed into the Fresnel lens shape that is formed by jog, to the ordinary refraction index n of this recess filling with high molecule liquid crystal FoThe homogeneous refractive index n that equates sTransparent adhesive material 23, and it is adhesively fixed on transparency carrier 12.At this, the direction of orientation of the liquid crystal of the direction of orientation of high molecule liquid crystal and the liquid crystal layer of off-state 16 is perpendicular, light polarization polarisation of light light direction is the polarization plane (in the X-Z face) of X-direction for become very as liquid crystal layer 16, the ordinary refraction index n of high molecule liquid crystal FoRefractive index n with transparent adhesive material 23 sUnanimity, so the corrugated that sees through of polarized light Fresnel lens 22 does not change.On the other hand, be the polarization plane of Y direction for the direction of polarized light that becomes the ordinary light polarized light as liquid crystal layer 16, the very optical index n of high molecule liquid crystal FeRefractive index n with transparent adhesive material 23 sDifference, polarized light Fresnel lens 22 see through the Fresnel lens shape of corrugated according to its jog, respective change appears.If form the jog shape of high molecule liquid crystal, making this see through the corrugated variation offsets for the fixing optical path difference OPD that ordinary light polarized light incident light occurs with liquid crystal lens element 10, then because regardless of the polarization of incident light light state, the corrugated that sees through of off-state does not all change, and is therefore comparatively desirable.Compare the refractive index n of high molecule liquid crystal with the 1st formation Fe, n FeBe not subjected to the very optical index n of liquid crystal e, ordinary refraction index n eTherefore restriction has the high advantage of degree of freedom that material is selected.On the other hand, owing to the formation of polarized light Fresnel lens 22, there is the shortcoming of liquid crystal lens element thickening.
In addition, in the liquid crystal lens 20 of Fig. 5, form dielectric multilayer membrane filtration mating plate 19, replace the diffraction grating 18 of liquid crystal lens 10, play the opening control function in the regulation zone of the single face of transparency carrier 21.This dielectric multilayer membrane filtration mating plate 19 sees through wavelength X 1, reflected wavelength lambda 2And wavelength X 3
In addition, expression with Fig. 1 identical member identical in the symbol of Fig. 5 with Fig. 1.
As implied above, the formation of the liquid crystal lens element 10,20 of Fig. 1 and Fig. 5 is, all forms the 1st transparency electrode 13 films on the plane of transparency carrier 11, formed the Fresnel lens that is made of jog 17 more thereon.But, also can be such formation, promptly form the Fresnel lens that constitutes by jog 17 on the plane of transparency carrier 11, form the 1st transparency electrode 13 films again on the surface of jog 17.
In this case, the voltage V to the 1st transparency electrode 13 and the 2nd transparency electrode 14 apply owing to do not have voltage drop at jog 17, directly applies voltage to liquid crystal layer 16, therefore the thickness d of jog 17 no matter FHow, the substantial refractive index n (V) of liquid crystal layer 16 all is even.Therefore, at thickness d FThe position of jog 17, the optical length between the 1st transparency electrode 13 and the 2nd transparency electrode 14 is { n F* d F+ n (V) * d LC, with respect to the Fresnel lens center (d of jog 17 F=d) optical length { n F* d+n (V) * (G-d) } optical path difference OPD shown in (5) formula.
OPD=(n F×d F+n(V)×d LC}
-{n F×d+n(V)×(G-d)}
={n(V)-n F}×(d-d F)
…(5)
At this, because thickness d FFrom d to zero cloth, so the optical path difference OPD shown in (5) formula zero to { n (V)-n FThe scope of } * d distributes.Therefore, for example for applying voltage V P, for wavelength X for CD 3Incident light generate the optical path difference that see through corrugated suitable with the curve β of Fig. 3, as long as determine the thickness d of jog 17, make optical path difference { n (V P)-n F} * d is roughly λ 3(that is 0.75 λ, 3To 1.25 λ 3), making jog 17 form thickness simultaneously is that zero cross sectional shape to d gets final product.
When forming the formation of the 1st transparency electrode 13 films on the surface of jog 17, liquid crystal layer 16 apply voltage V LCRegardless of material rerum natura and its shapes such as the relative dielectric constant of jog 17 or resistivity, all with the 1st transparency electrode 13 and the 2nd transparency electrode 14 to apply voltage V consistent.Therefore, though carry out the shaped design of the jog 17 of Fresnel lens easily, be difficult to not have broken string on the surface of jog 17, stably form low-resistance the 1st transparency electrode 13.On the other hand, when being the formation of formation the 1st transparency electrode 13 films below jog 17, the thickness d of jog 17 FThick more, liquid crystal layer 16 apply voltage V LCLow more, the substantial refractive index n (V of corresponding therewith liquid crystal layer 16 LC[d F]) distribute.As a result, owing to the jog 17 that utilizes thin thickness d can obtain big optical path difference, therefore have the film forming of simplification jog 17 and the advantage of processing technology.
For the liquid crystal lens element 10 or 20 of as above operating gained, at off-state (V=V LC[d F]=0) under, incident light sees through the corrugated all less than changing (that is, not having magnification) regardless of its polarized light state and wavelength, and straight line sees through liquid crystal lens element, obtains high-transmission rate.In addition, at on-state (V=V P) under, for wavelength X 3The incident light of very light polarization light, see through to become and be equivalent to dispersing of concavees lens and see through corrugated (that is negative magnification component).In addition,,, see through the equal no change in corrugated (that is, not having magnification), carry out straight line and see through, can obtain high-transmission rate regardless of applying voltage and wavelength for the incident light of ordinary light polarized light.
Therefore, when the wavelength X of BD 1Light beam be incident to liquid crystal lens element 10 or at 20 o'clock, will apply voltage V and be made as zero (that is, off-state), at numerical aperture NA 1The zone almost do not have light loss, can carry out straight line and see through.In addition, when the wavelength X of incident DVD 2Light beam the time, will apply voltage V and be made as zero, at numerical aperture NA 2The zone almost do not have light loss, can carry out straight line and see through.On the other hand, when the wavelength X of incident CD 3The light beam of very light polarization light the time, will apply voltage V and be made as V P(that is, on-state) is at numerical aperture NA 3The corrugated of dispersing that becomes the concavees lens function, zone see through.
In addition, in the present embodiment, for the liquid crystal lens element that generates the axisymmetric optical path difference OPD shown in (1) formula, its component construction and principle of work have been described, but also can be according to identical principle, by the processing of jog 17 with to this recess filling liquid crystal, make to generate the liquid crystal cell of the optical path difference OPD of compensation such as the nonaxisymmetrical coma aberration that is equivalent to beyond (1) formula or astigmatism.
In addition, shown in the present embodiment all utilize the β electrode promptly 2 terminals of the 1st transparency electrode 13 and the 2nd transparency electrode 14 apply the structure of alternating voltage to liquid crystal layer 16, in addition, also can configuration example as spatially cutting apart the 1st transparency electrode 13 with at least one side's of the 2nd transparency electrode 14 electrode, apply the structure of different alternating voltages independently.In addition, also the transparency electrode the cut apart resistive film as the resistance with expectation can be provided with plural supply terminals on this space, give along radial direction and apply voltage and distribute, the voltage that is applied to liquid crystal is along the radial direction tilt distribution.By constituting the structure of cutting apart electrode or resistive film electrode as above, can further generate the space distribution of multiple optical path difference OPD.
In addition, the liquid crystal lens element by stacked rectilinearly polarized light performance concavees lens function to X-direction and to the rectilinearly polarized light performance concavees lens function of Y direction liquid crystal lens element, the wavelength X of CD no matter then 3The polarization of incident light light state how, under on-state, at numerical aperture NA 3Zone performance concavees lens function.Specifically, as long as the mutually perpendicular liquid crystal lens element 10 of direction of orientation of the liquid crystal molecule of stacked and liquid crystal layer 16.When utilizing the jog 17 that forms by birefringent materials such as high molecule liquid crystals, make the optical axis direction of birefringent material of jog 17 also orthogonal.In addition, using when being the liquid crystal layer 16 that forms of positive liquid crystal and the jog 17 that forms by the homogeneous refraction materials by dielectric anisotropy Δ ε, owing to offset the fixing optical path difference OPD that any incident polarized light all produces, therefore as long as form the Fresnel lens that phase compensation is used on the transparency carrier surface of liquid crystal lens element.
[the 2nd embodiment]
Below, with reference to the structure example of the outboard profile detailed description shown in Figure 6 liquid crystal lens element 30 relevant with the 2nd embodiment of the present invention.In addition, in the present embodiment, to the part identical with the 1st embodiment, the mark same-sign is not done repeat specification.
Be different from the 1st embodiment, in the liquid crystal lens element 30 of present embodiment, when utilizing BD to carry out the record reproducing of DVD, in order to compensate the spherical aberration that produces because of the difference of cover thickness, be equivalent to numerical aperture NA on the surface of transparency carrier 31 with object lens 2=0.65 zone forms the phase compensation face 32 that DVD uses.And then in the present embodiment, phase-plate 33 is clipped between transparency carrier 31 and the transparency carrier 12, and this point is different with the liquid crystal lens 10 and 20 of the 1st embodiment.In addition, in the symbol of Fig. 6, the member that the symbolic representation identical with Fig. 1 and Fig. 1 are identical.
Utilize BD with object lens to DVD with numerical aperture NA 2=0.65 with wavelength X 2When the incident light of=660nm focuses on the information recording layer, produce big spherical aberration.At this moment,, can compensate such spherical aberration, carry out the record reproducing of stable DVD CD by utilizing phase compensation element (for example, opening the 2004-138895 communique) with reference to the Jap.P. spy.
At this, the phase compensation face 32 that the DVD of present embodiment uses is by at numerical aperture NA 2The stair-stepping jog of the optical axis that forms of zone with rotational symmetry to incident light form the wavelength X of each of jog section 1The phase differential that sees through light be the even-multiple of 2 π.
At this, if make the phase compensation face 32 that the transparent material by homogeneous refractive index n forms jog each section through the phase differential of light to wavelength X 1Be the even-multiple of 2 π, consider the refractive index wavelength dispersion of jog material, then to wavelength X 3Phase differential be the roughly integral multiple of 2 π.Therefore, to wavelength X 1And wavelength X 3No matter the polarization of incident light light state how, the corrugated that sees through of the jog of phase compensation face 32 does not change, and straight line sees through.On the other hand, to wavelength X 2Incident light, the phase differential of the jog of phase compensation face 32 becomes the non-integral multiple of 2 π, becomes the phase compensation face of the wavelength selectivity that changes corresponding to the shape of jog through the corrugated.
The jog cross sectional shape of decision phase compensation face 32 makes to generate the see through corrugated of compensation because of the optical path difference OPD shown in usefulness (1) formula of the spherical aberration of the DVD of the difference generation of the cover thickness of CD.In addition, for change and the DVD CD between operating distance, also can form the corrugated that sees through of giving the magnification component.At this moment, the cross sectional shape of phase compensation face 32 is a zigzag, becomes jagged each protuberance by the approximate Fresnel lens shape of stairstepping grating.
This phase compensation face 32 becomes the concaveconvex shape of stepped grating, for example become with wavelength X 2The interval separate curve (optical path difference) shown in the α of Fig. 3, show the curve β of optical path difference of face projection (parallel moving) to optical path difference zero suitable see through the corrugated.At this, with the height d of stairstepping grating of (N+1) level (being the N rank) NThe height d that is divided into 1 rank of N five equilibrium 1Optical path difference (n-1) * d 1Make wavelength X 1The even-multiple of=405nm.For example, as (n-1) * d 1=2 * λ 1The time, work as wavelength X 2Light when being incident to phase compensation face 32, the phase differential that sees through the corrugated on jog 1 rank becomes 2 π * (n-1) * d 1/ λ 2=2 π * (2 * λ 1/ λ 2), if consider the refractive index wavelength dispersion of transparency carrier 31, then become about 2 π * 1.18.That is the corrugated that sees through that, only postpones 0.18 wavelength on per 1 rank actual effect of stairstepping grating.Therefore, by jagged cross sectional shape being formed the stairstepping grating of approximate N=4 or N=5, thereby form the phase compensation face 32 that sees through the corrugated that only compensates DVD.
At this, in Fig. 7, shown the part enlarged drawing of the wave aberration of the wave aberration compensating action of representing phase compensation face 32.By will with 1 rank height d of stairstepping grating 1Corresponding compensation optical path difference a={ (n-1) * d 12Be unit, with 1 wavelength X 2The wave aberration of size is cut apart with compensation optical path difference a, comes compensated wave aberration approx.Shown aberration compensation example among Fig. 7 by the stairstepping grating on 6 grades (5 rank).
Below, with reference to figure 6, the phase-plate of being clamped by transparency carrier 31 and transparency carrier 12 33 is described.
Form on the surface of transparency carrier 31 along with the direction of X-axis shape angle at 45 alignment film of polyimide through orientation process, make it polymerizing curable again after the coating of liquid crystalline monomer, form the phase-plate 33 that by high molecule liquid crystal form of molecular orientation towards the orientation process direction.Re-using transparent adhesive material (not shown) is adhesively fixed it on transparency carrier 12.At this, consider the refractive index wavelength dispersion, set the thickness of high molecule liquid crystal material, if the length of delay Rd that establishes phase-plate 33 is with respect to wavelength X 1Be 9 λ 1/ 4, then Rd is for wavelength X 2Be roughly 5 λ 2/ 4, Rd is for wavelength X 3Be roughly λ 3That is, to wavelength X 1And wavelength X 2Become 1/4 wavelength plate, for wavelength X 3Can not play the function of wavelength plate.
In Fig. 8, shown, when the rectilinearly polarized light of the liquid crystal lens element 30 incident X-directions (non-ordinary light) of gained like this or Y direction (ordinary light), seen through light.
At off-state (V=V 0=0) under, at numerical aperture NA 1The wavelength X of BD of regional incident 1Light beam shown in Fig. 8 (A), see through the corrugated and do not occur changing, becoming circularly polarized light, carry out straight line and see through.In addition, at numerical aperture NA 2The wavelength X of DVD of regional incident 2Light beam shown in Fig. 8 (B), the circularly polarized light that becomes the diverging light corrugated by phase compensation face 32 sees through.In addition, at on-state (V=V P) when descending the rectilinearly polarized light incident of X-direction, at numerical aperture NA 3The wavelength X of CD of regional incident 3Light beam shown in Fig. 8 (C), the rectilinearly polarized light former state of X-direction becomes the diverging light corrugated by the Fresnel lens that is formed by jog 17 and liquid crystal layer 16 and sees through.
In addition, the phase-plate that the high molecule liquid crystal by will be by the angle of the length of delay Rd and the axle that lags behind different 2 layers or 3 layers forms is stacked, can also obtain for wavelength X 1, wavelength X 2And wavelength X 3The phase-plate that is equivalent to about 1/4 wavelength plate 33.At this moment, the wavelength X of CD no matter 3The polarization of incident light light state how, for all under on-state in numerical aperture NA 3Zone performance concavees lens function, be preferably formed as and will carry out stacked structure to the liquid crystal lens element of the rectilinearly polarized light performance concavees lens function of X-direction with to the liquid crystal lens element of the rectilinearly polarized light performance concavees lens function of Y direction.
[the 3rd embodiment]
Below, with reference to figure 9,3 wavelength that use in the record reproducing of 3 kinds of CDs of BD, DVD and CD that the related liquid crystal lens element 30 (with reference to Fig. 6) of the 2nd embodiment of the present invention has been installed are exchanged optical-head apparatus 40 describe.
The optical-head apparatus 40 of present embodiment is by the wavelength X as BD 1The semiconductor laser 1 of the light source of=405nm, polarised light splitter 2, close ripple prism 3, collimation lens 4, BD with object lens 5, wavelength X 1Photodetector 6 and liquid crystal lens element 30 form one with the driver 7 that keeps object lens 5 and the device that constitutes.
In addition, the optical-head apparatus 40 of present embodiment also has the wavelength X as DVD beyond the diagram 2The semiconductor laser of the light source of=660nm, wavelength X 2Photodetector and optical splitter integrated and DVD assembly 8A; With the wavelength X beyond the diagram as CD 2The semiconductor laser of the light source of=790nm, wavelength X 3Photodetector and optical splitter integrated and CD assembly 8B; And optical splitter 9.
Below, the effect of present embodiment is described.
(I) wavelength X of launching by semiconductor laser 1 1The light of=405nm is polarized 2 reflections of light optical splitter, sees through and closes ripple prism 3, becomes directional light by collimation lens 4, is incident to the liquid crystal lens element 30 of off-state as ordinary light polarized light (direction of polarized light is the polarization plane of Y direction).In addition, be transformed into circularly polarized light by the phase-plate 33 (with reference to Fig. 6) in the liquid crystal lens element 30, shown in Fig. 8 (A), straight line sees through liquid crystal lens element 30, is equivalent to numerical aperture NA 1=0.85 light beam is assembled to the information recording layer of BD CD D with object lens 5 by BD.On the other hand, the flashlight that is reflected by information recording layer passes through former road, be transformed into very light polarization light (direction of polarized light is the polarization plane of X-direction) by the phase-plate 33 in the liquid crystal lens element 30, straight line sees through liquid crystal lens element 30, see through and close ripple prism 3 and polarised light splitter 2, efficiently assembled to the sensitive surface of photodetector 6, be transformed into electric signal.
(II) in addition, the wavelength X of launching from DVD assembly 8A 2The light transmission of=660nm closes ripple prism 9, is closed after 3 reflections of ripple prism, and collimated lens 4 optically focused become directional light, are incident to the liquid crystal lens element 30 of off-state as the ordinary light polarized light.In addition, be transformed into circularly polarized light, be equivalent to numerical aperture NA by the control of diffraction grating 18 openings of liquid crystal lens element 30 by the phase-plates 33 (with reference to Fig. 6) in the liquid crystal lens element 30 2=0.65 light beam is by the phase compensation face 32 (with reference to Fig. 6) in the liquid crystal lens element 30, be transformed into the corrugated that sees through shown in Fig. 8 (B) of the aberration that compensation causes by the difference of the cover thickness of CD, assembled to the information recording layer of DVD CD D with object lens 5 by BD.On the other hand, the former road of flashlight process by information recording layer reflects is transformed into very light polarization light by the phase-plates 33 in the liquid crystal lens element 30, is closed 3 reflections of ripple prism, see through and to close after the ripple prism 9 sensitive surface of being assembled the photodetector to the DVD assembly 8A, be transformed into electric signal.
(III) in addition, the wavelength X of launching from CD assembly 8B 3The light of=790nm is closed ripple prism 9 and is closed after 3 reflections of ripple prism, and collimated lens 4 optically focused become directional light, is incident to the liquid crystal lens element 30 of on-state as unusual light polarization light.In addition, by the phase-plate 33 in the liquid crystal lens element 30, polarization plane does not change, is equivalent to numerical aperture NA 3The Fresnel lens of=0.50 light beam by forming by jog 17 in the liquid crystal lens element 30 and liquid crystal layer 16 (all with reference to figure 6), see through wavefront transformation and become the diverging light shown in Fig. 8 (C), the aberration that difference by the cover thickness of CD is caused is compensated, and assembles to the information recording layer of CD CD D by object lens 5.Kept very light polarization light former state by the flashlight that information recording layer reflects, through former road, assembled the sensitive surface of the photodetector to the CD assembly 8B, be transformed into electric signal.At this,, straight line removes numerical aperture NA because seeing through 3Numerical aperture NA 2Light beam assembled to the information recording layer of CD CD D so NA as a result 3The Fresnel lens in zone shows the opening control function.
As shown in Figure 9, by processing jog 17 and phase compensation face 32 (all with reference to figure 6), make through the wavelength X behind the liquid crystal lens element 30 2And wavelength X 3Light become diverging light, then as the dotted line of Fig. 9 and the light path shown in the dotted line, can enlarge the operating distance of DVD and CD CD D, therefore make that the stability when utilizing driver 7 starting focus servosystems improves.
Like this, the optical-head apparatus 40 that relates to by present embodiment, as BD is used with object lens 5 and liquid crystal lens element 30 incorporate compound lenses, not only compensate the spherical aberration that causes by the different of the cover thickness of the CD D of DVD and CD, but also had the concavees lens function that enlarges operating distance.As a result, can realize the optical-head apparatus of the small-sized light weight that can reset to BD, DVD and CD3 kind CD stable recording.
In addition, 30 pairs of wavelength X of the liquid crystal lens element of off-state 1And wavelength X 2Light shown high-transmission rate, also 1/4 wavelength plate is formed integratedly simultaneously, therefore obtained and with the high optical system of light utilization ratio of polarised light splitter.As a result, be suitable for the BD of high power speed and the record optical-head apparatus of DVD.
[the 4th embodiment]
With reference to outboard profile shown in Figure 10 and planimetric map shown in Figure 11, describe the configuration example of the related liquid crystal lens element 50 of the 4th embodiment of the present invention in detail.
The liquid crystal lens element 50 of present embodiment is by having identical the 1st 50C of liquid crystal lens portion that constitutes with liquid crystal lens element 10 that the 1st embodiment relates to and the 2nd 50D of liquid crystal lens portion forms.Have transparency carrier 11,12C, 12D respectively; The 1st transparency electrode 13C, 13D; The 2nd transparency electrode 14C, 14D; Containment member 15C, 15D; Liquid crystal layer 16C, 16D; Jog 17C, 17D.
Wherein, jog 17C, 17D have Fresnel lens or with the shape of stepped approximate Fresnel lens, use the ordinary refraction index n with liquid crystal layer 16C, 16D oRefractive index n about equally FTransparent material, in effective diameter φ zone, form, have the rotational symmetry of optical axis (Z axle) to incident light.
Below, an example of the manufacturing process of this liquid crystal lens element 50 is carried out following explanation.
At first, the single face at transparency carrier 12C, 12D forms the 1st transparency electrode 13C, 13D.In the zone of effective diameter φ on this transparency electrode 13C, 13D, use refractive index n again FTransparent material, form jog 17C, 17D.
On the other hand, after the 2nd transparency electrode 14C, 14D are made in the two sides of transparency carrier 11, will sneak into jointing material printing figures beyond the diagram of gap control material, form containment member 15C, 15D, overlap with aforesaid transparency carrier 12C, 12D, crimping makes dummy cell.
Then, inject from the inlet (not shown) of the part that is arranged on containment member 15C, 15D and have negative dielectric anisotropy, have ordinary refraction index n oUnusual optical index n e(wherein, n o≠ n e) nematic crystal, afterwards, seal this inlet, sealing liquid crystal in the unit, is formed liquid crystal layer 16C, 16D, become the liquid crystal lens element 50 of present embodiment.
In addition, in the present embodiment, apply voltage to the 1st transparency electrode 13C, 13D, apply voltage to the 2nd transparency electrode 14C, 14D by electrode 14A (with reference to Figure 11) by the electrode 13A (with reference to Figure 11) that forms in transparency carrier 11 sides.Electrode 13A is connected outside AC power (not shown) with electrode 14A, applies alternating voltage to liquid crystal layer 16C, 16D.
In addition, for according to the voltage that applies between the 1st and the 2nd transparency electrode, the orientation of the liquid crystal molecule of liquid crystal layer 16C, 16D is consistent with the Y direction along directions X respectively, is formed on directions X and the Y direction alignment films (not shown) through orientation process at least on the surface of the 2nd transparency electrode 14C, 14D.
When jog 17C, 17D and liquid crystal layer 16C, 16D have the big resistivity that is regarded as electrical insulator, exist Fresnel lens shape according to jog 17C, 17D, incident light see through that the corrugated shows magnification component (lens function) apply voltage V PLike this, can obtain applying voltage V and can switch liquid crystal lens element 50 through the focus point of light by switching.At this, because the 1st 50C of liquid crystal lens portion all plays the function of switching focal length for the rectilinearly polarized light of directions X, the 2nd 50D of liquid crystal lens portion for the rectilinearly polarized light of Y direction, so how all no matter liquid crystal lens element 50 play the incident polarization light state function of changeable focal length.
In addition, in the liquid crystal lens element 50 shown in Figure 10, be that central part is by the jog 17C of concavity, the Fresnel lens that 17D forms, owing to apply voltage V PThe time liquid crystal layer substantial refractive index greater than the refractive index of jog, therefore occur giving the positive amplification ratio component (convex lens function) see through the corrugated.
Fresnel lens or with the cross sectional shape of stepped jog 17C, 17D near Fresnel lens as the detailed description in the liquid crystal lens element 10 that the 1st embodiment relates to, see through the optical path difference OPD of light according to the described processing of (1) formula.
When being the liquid crystal lens element 50 of present embodiment, determine the shape of jog 17C, 17D, make in the optical-head apparatus that the record reproducing of individual layer and double-layer CD is used, the spherical aberration that compensation is caused by the cover thickness difference, dispose in addition with object lens simultaneously, even when object lens are followed the tracks of, eccentric situation occurs, aberration also can not occur and worsen with liquid crystal lens element 50.
For applying voltage V P, determine to be endowed the corrugated that sees through of the positive amplification ratio component that takes place by the 1st 50C of liquid crystal lens portion and the 2nd 50D of liquid crystal lens portion according to the Fresnel lens shape of jog 17C, 17D.Therefore, identical shaped by jog 17C, 17D are formed, the rectilinearly polarized light incident light of directions X and Y direction is become the identical corrugated that sees through.
In Figure 10,, therefore generated the difference that is equivalent to its image point position at interval because jog 17C and 17D form across transparency carrier 11.In order to eliminate like this difference of the image point position that produces by incident polarized light, also the endless belt shape of the 17D of jog 17C can be made difference.In addition, also can independently set the shape of jog 17C and 17D, make that diverse magnification component appears in the rectilinearly polarized light incident light for the Y direction of directions X.
Below, the Figure 12 with reference to showing its formation describes the optical-head apparatus 60 that uses in the record reproducing of individual layer and double-deck BD CD or DVD CD that the related liquid crystal lens element 50 of the 4th embodiment of the present invention has been installed.
In the optical-head apparatus 60 of present embodiment,, omit explanation to using identical symbol with optical component that related 3 wavelength of the 3rd embodiment shown in Figure 9 exchange optical-head apparatus 40 identical functions.
For example, for having used the individual layer BD CD that is designed to cover thickness 0.100mm to make the optical-head apparatus 60 of aberration as the object lens 550 of minimum, when the information recording layer D1 to the cover thickness 0.075mm of double-deck BD CD carries out record reproducing, apply voltage V by utilization PThe positive amplification ratio component of convex lens appears being equivalent in the liquid crystal lens element 50 of (on-state), reduces the generation of aberration like this.At this,,, therefore can realize stable record reproducing owing to, do not occur changing and see through the corrugated by not applying voltage (off-state) to liquid crystal lens element 50 for the individual layer of cover thickness 0.100mm and the information recording layer D2 of double-deck BD CD.
In addition, when for example using the cover thickness 0.0875mm that is designed to the centre of the cover thickness 0.100mm of double-deck BD CD and 0.075mm to make aberration as the object lens 5 of minimum, the limited system that becomes diverging light by the light beam that will be incident to object lens 5 a little disposes, and the aberration of cover thickness 0.100mm becomes minimum.Even this situation by the voltage that applies of switchable liquid crystal lens element 50, also can realize the stable record reproducing to information recording layer D1, the D2 of individual layer and double-deck BD CD.
In addition, for for example having used the CD that is designed to cover thickness 0.59mm to make the optical-head apparatus of aberration,, apply voltage V by utilization to the CD of cover thickness 0.62mm as the object lens of minimum PThe negative magnification component that is equivalent to concavees lens that produces of liquid crystal lens element 50, reduced the generation of aberration.Therefore, when the record reproducing of the information recording surface D2 of the DVD-dual layer CD of cover thickness 0.61mm to 0.63mm, by applying voltage V to liquid crystal lens element 50 P, can realize stable record reproducing.On the other hand, when the record reproducing of the information recording surface D1 of the DVD-dual layer CD of the individual layer DVD CD of cover thickness 0.60mm and cover thickness 0.57mm to 0.59mm, do not apply voltage, carry out record reproducing by the aberration performance of object lens to liquid crystal lens element 50.As a result, by switching the connection disconnection that applies voltage to liquid crystal lens element 50, can realize the stable record reproducing of individual layer and double-layer CD.
In addition, for having used the individual layer DVD CD that is designed to cover thickness 0.60mm to make the optical-head apparatus of aberration as the object lens of minimum, the limited system that becomes diverging light by the light beam that will be incident to object lens a little disposes, and for example the aberration of cover thickness 0.61mm becomes minimum.Apply voltage V by utilization PLiquid crystal lens element 50 produce the positive amplification ratio component that is equivalent to convex lens, the CD to cover thickness 0.59mm has reduced the aberration generation thus.That is,, can make the aberration minimum of cover thickness 0.59mm and 0.61mm by the voltage that applies of switchable liquid crystal lens element 50.
In addition,, make the outlet that is incident to polarised light splitter 2 vertical mutually, can become efficient optical splitter with the polarized light in loop by configuration 1/4 wavelength plate 51 in the light path between liquid crystal lens element 50 and object lens 5.At this, though the perpendicular rectilinearly polarized light in outlet and loop is incident to liquid crystal lens element 50, any polarized light is all showed the aberration compensation function, can keep stable record reproducing performance.
[the 5th embodiment]
Exchange the embodiment of optical-head apparatus for the BD/HDDVD that can carry out record reproducing that liquid crystal lens element of the present invention has been installed to the CD of BD and HDDVD, use BD shown in Figure 13 to be fixed on the pie graph of driver 7, carry out following explanation with object lens 5 and liquid crystal lens 50.
Though the liquid crystal lens element 50 of present embodiment has the identical formation of the liquid crystal lens element that relates to the 4th embodiment shown in Figure 10 50, and is different with the 4th embodiment in the following areas.
Though liquid crystal lens element 50 has the corresponding light transmissive region of effective diameter of using object lens 5 with the BD of NA0.85, only in being equivalent to the effective diameter of NA0.65, form jog 17C, 17D (with reference to Figure 10).In addition, jog 17C, 17D form and are applying voltage V PShi Liyong liquid crystal lens element 50 produces the Fresnel lens shape that sees through the corrugated of giving negative magnification component (concavees lens function), makes using the wavelength X of object lens 5 with the NA0.65 zone with BD 1Incident light assemble the spherical aberration that when cover thickness is the information recording layer of HDDVD CD of 0.60mm, takes place and be compensated, enlarge the interval of object lens and CD simultaneously.
At this, when BD CD D (BD) is carried out record reproducing, shown in Figure 13 (A), by not applying voltage (off-state) to liquid crystal lens element 50, thereby seeing through the corrugated does not change, see through light (representing) thus and assembled effectively to the information recording layer of cover thickness 0.100mm with object lens 5, realize the stable record reproducing of BD CD by BD with solid line.
On the other hand, when HDDVDD CD D (HD) is carried out record reproducing, shown in Figure 13 (B), by applying voltage V to liquid crystal lens element 50 P(on-state), thus the light (representing with solid line) that sees through in the NA0.65 zone of liquid crystal lens 50 becomes diverging light, is assembled effectively to the information recording layer of cover thickness 0.60mm with object lens 5 by BD, realizes the stable record reproducing to the HDDVD CD.In addition, among the NA0.85, the extra-regional light beam straight line of NA0.65 sees through liquid crystal lens element 50 (dotting), owing to do not assemble to the information recording layer of HDDVD CD with object lens 5, so do not influence the light beam that the record reproducing in NA0.65 zone is used by BD.As a result, by using BD with object lens and liquid crystal lens element, realization can be exchanged optical-head apparatus to the BD/HDDVD that the different BD CD of specification and HDDVDD CD carry out record reproducing.
In the present embodiment, because the 2nd 50D of liquid crystal lens portion that has used the 1st 50C of liquid crystal lens portion (with reference to Figure 10) that worked by the rectilinearly polarized light to directions X and the rectilinearly polarized light of Y direction is worked is (same, with reference to Figure 10) liquid crystal lens element 50 that forms, so show the function no matter how the polarization of incident light light state all switches focal length.Therefore, 1/4 wavelength plate can be configured between collimation lens and the liquid crystal lens portion 50 or BD with in the light path arbitrarily between object lens and the liquid crystal lens portion 50.In addition, replace liquid crystal lens portion 50, also can constitute the structure identical with liquid crystal lens portion 10 shown in Figure 1 or liquid crystal lens portion shown in Figure 6 30.In this case, jog 17 only is formed in the effective diameter suitable with NA0.65, and forms and applying voltage V PThe Shi Liyong liquid crystal lens element produces the Fresnel lens shape that is formed by jog 17 that sees through the corrugated give negative magnification component (concavees lens function), makes compensation use the BD wavelength X of object lens 5 with the NA0.65 zone 1The spherical aberration that produces when assembling information recording layer to the HDDVD CD of cover thickness 0.60mm of the rectilinearly polarized light incident light of directions X, enlarge the interval of object lens and CD simultaneously.
In addition, illustrated in the present embodiment that BD is fixed on configuration example on the driver 7 with object lens 5 and liquid crystal lens 50, but can liquid crystal lens 50 be installed on the driver 7 yet, but be configured in collimation lens and BD with in the fixed part in the light path between the object lens 5.In this case, the advantage that has the weight loading that alleviates driver 7.
In addition, shown in the present embodiment that the BD that uses the BD CD to cover thickness 0.100mm to design exchanges the example of optical-head apparatus with the BD/HDDVD of object lens, but also can use other object lens.For example use the object lens of following design, the NA0.65 zone of object lens that makes design is to wavelength X 1Parallel incident light assemble to the information recording layer of the HDDVD CD of cover thickness 0.60mm, and the NA0.65 zone of the object lens of design is outer and the regional interior ring belt area of NA0.85 to wavelength X 1Parallel incident light assemble to the information recording layer of the BD CD of cover thickness 0.100mm.If wavelength X 1Directional light be incident in these object lens, then different with the focus point of above-mentioned ring belt area in NA0.65 zone because the light beam in NA0.65 zone assembled effectively to the information recording layer of HDDVD CD, so realize the stable record reproducing of HDDVD CD.On the other hand, though outside the NA0.65 zone and the light beam of the ring belt area of NA0.85 in regional assembled to the information recording layer of BD CD, but the light beam in NA0.65 zone is not by optically focused.Therefore, as long as use liquid crystal lens element, and form and applying voltage V PThe Shi Liyong liquid crystal lens element produces the Fresnel lens shape that is formed by jog 17 (17C, 17D) that sees through the corrugated give positive amplification ratio component (convex lens function), the spherical aberration that makes compensation generation when the information recording layer of the BD of cover thickness 0.100mm CD is assembled is so that the information recording layer that the light beam of the light beam in NA0.65 zone and above-mentioned ring belt area is assembled equally to the BD CD gets final product.
Embodiment
[example 1]
Below, with reference to figure 6, the specific embodiment of the liquid crystal lens element of the present invention 30 that the 2nd embodiment is shown carries out following explanation.
The manufacture method of this liquid crystal lens element 30 at first, is described.
(i) on glass substrate, form nesa coating (ITO film), become the 1st transparency electrode 13 as transparency carrier 11.Thereon, by using the Si sputtering target and in Ar gas, sneaking into the sputtering method of the discharge gas of oxygen and nitrogen, with homogeneous refractive index n F(=1.49) form the SiO of thickness d (=3.0 μ m) xN yFilm.
Then, in the photoetching that utilizes photomask, resist formed figure after, by the reactive ion etching method with SiO xN yIt is suitable with the shape of the curve β of Fig. 3 that film is processed into.As a result, with numerical aperture NA 3In the zone of the effective diameter 2.65mm of=0.50 correspondence, will process at the jog 17 with the stepped approximate Fresnel lens on 16 rank in cross section shown in Figure 6.Afterwards, form the vertical alignment layer (not shown) of the about 50nm of thickness on the surface of jog 17.
(ii) in addition, on glass substrate, form nesa coating (ITO film), become the 2nd transparency electrode 14 as transparency carrier 12.Again thereon, form the vertical alignment layer (not shown) of the about 50nm of thickness,, become the alignment films that liquid crystal is used along X-direction (rubbing) orientation process that rubs.Afterwards, the 2nd transparency electrode 14 sides at transparency carrier 12 with sneaking into the jointing material printing figures of the gap control material of diameter 8 μ m, become containment member 15, and it is overlapped with transparency carrier 11, and dummy cell is made in crimping.Afterwards,, seal this inlet, form liquid crystal layer 16, become liquid crystal lens element 10 from inlet (not shown) the injection liquid crystal of dummy cell.Liquid crystal as this liquid crystal layer 16 uses ordinary refraction index n o(=1.49) and unusual optical index n e(=1.64) have negative dielectric anisotropy (Δ ε=ε //-ε =-10) nematic crystal.In addition, this liquid crystal when not applying voltage and the face of jog 17 and the 2nd transparency electrode 14 vertical orientated, along with voltage application, liquid crystal molecule tilts to X-direction, near parallel-oriented.
(iii) the 1st transparency electrode 13 with the liquid crystal lens element 10 of gained like this is connected AC power with the 2nd transparency electrode 14, applies rectangle alternating voltage V.With respect to apply voltage V be dispensed to liquid crystal layer 16 apply voltage V LCRatio V LC/ V is corresponding to the thickness d of jog shown in Figure 4 17 FBed thickness d with liquid crystal layer 16 LC, have the relation of (2) formula, corresponding to the Fresnel lens shape that forms by jog 17, formation voltage distribution V LCAs a result, be the linearly polarized light incident light with polarization plane of X-direction to direction of polarized light, for the thickness d of jog 17 FDistribution, the optical path difference OPD between transparency electrode distributes shown in (3) formula.By SiO xN yThe thickness d of film formed jog 17 FThe scope extremely zero at d distributes, for the central part (d of Fresnel lens shape F=d) optical path difference OPD is at zero OPD to (4) formula 0Scope distributes.
At this, (V=V when not applying voltage O=0) liquid crystal layer 16 becomes n (0)=n oThe homogeneous refractive index layer since with the SiO of jog 17 xN yThe refractive index n of film FUnanimity, so OPD 0Do not depend on incident light wavelength and polarized light state, its value is about zero.That is, see through the corrugated and do not change, carry out straight line and see through.
On the other hand, apply voltage V between transparency electrode, then for the unusual OPD of (4) formula of light polarization light if increase 0Occur to change the wavelength X that CD is used 3There is OPD in=790nm 0Be about λ 3Apply voltage V PTherefore, apply voltage V by switching OAnd V P, will be incident to the wavelength X of liquid crystal lens element 30 3Very light polarization light switch to and do not have the diverging light that sees through corrugated and the negative magnification suitable of magnification to see through the corrugated with the β of Fig. 3.
If with wavelength X 1The BD of=405nm, focal length 2.40mm is used for wavelength X with object lens 3The CD CD of=790nm maximum optical path difference then occurs being equivalent to and is about 1.4 λ 3, the RMS wave aberration is about 437m λ 3Big spherical aberration.
(iv) therefore,, process jog 17, make to apply voltage V in order to use liquid crystal lens element 10 these spherical aberrations of compensation PThe corrugated that sees through become and use the coefficient a shown in the aforementioned table 1 1~a 5(1) formula of value shown in the optical path difference OPD of the suitable curve β of the curve α of Fig. 3.Wherein, the optical path difference OPD of (1) formula is that unit, r are unit with " mm " with " μ m ".
Because in this example, utilize the jog 17 of the approximate Fresnel lens of stairstepping on 16 rank, therefore the thickness with jog 17 is decided to be d=3.0 μ m, and electrode gap G is decided to be 8 μ m, so that applying voltage V as the interchange effective voltage of square waveform PInterelectrode optical path difference OPD shown in (4) formula under the=3.8V 0Be about 0.74 μ m.
Wavelength X 3Apply the switching V of voltage under the=790nm O, V PIn, the calculated value of the formation efficiency that sees through the corrugated of appearance is respectively 100%, 98%.
(v) follow, at surface and numerical aperture NA as the quartz glass substrate of transparency carrier 31 2In the zone of=0.65 suitable effective diameter 3.2mm, form 1 stage rank height d by the jog of transparency carrier 31 1It is the phase compensation face 32 of stepped optical grating constitution on 6 grade of 5 rank of 1.73 μ m.Glass substrate is in wavelength X 1Following refractive index is 1.47, in wavelength X 2And wavelength X 23The phase differential that following refractive index is 1.45,1 rank is to wavelength X 1Be 2.0 λ 1, to wavelength X 2Be 1.18 λ 2, to wavelength X 3Be 0.99 λ 3Therefore, see through the wavelength X of phase compensation face 32 2The light that sees through produce the corrugated according to concaveconvex shape and change, and wavelength X 1And wavelength X 3The corrugated that sees through light do not change.
If aforesaid BD is used for wavelength X with object lens 2The DVD CD of=660nm maximum optical path difference then occurs being equivalent to and is about 2.7 λ 2, RMS (root mean square, Root Mean Square) wave aberration is about 794m λ 2Big spherical aberration.
Therefore, in order to compensate this spherical aberration,, become and coefficient a shown in the aforementioned table 2 of use so that make through the corrugated at the surface working phase compensation face 32 of transparency carrier 31 1~a 5(1) formula of value shown in the optical path difference OPD of the suitable curve β of the curve α of Fig. 3.
(vi) in addition, remove numerical aperture NA at transparency carrier 31 2=0.65 comprise numerical aperture NA 1In=0.85 the ring belt area that is equivalent to effective diameter 3.8mm to 4.2mm, forming the degree of depth is the diffraction grating 18 of the rectangular cross sectional shape of 0.87 μ m.The phase differential of the bench height of diffraction grating is to wavelength X 1Be 1.01 λ 1, to wavelength X 2Be 0.59 λ 2, to wavelength X 3Be 0.50 λ 3Therefore, wavelength X 1Light do not have diffracted but straight line sees through, but wavelength X 2And wavelength X 3Wide part diffracted, the light that straight line sees through obtains the opening control function below 15%.
(on another face of transparency carrier 31, form vii) in addition, by the film formed phase-plate 33 of high molecule liquid crystal.In the face of transparency carrier 31, carry out molecular orientation, become the high molecule liquid crystal film of thickness 6.8 μ m along the direction that becomes the 45 degree with respect to X-axis.If establishing the birefraction Δ n of high molecule liquid crystal film is to wavelength X 1Be 0.134, to wavelength X 2Be 0.122, to wavelength X 3Be 0.117, then the length of delay Rd of phase-plate 33 is to wavelength X 1Be 2.25 λ 1, to wavelength X 2Be 1.26 λ 2, to wavelength X 3Be 1.00 λ 3Therefore, 33 pairs of wavelength X of phase-plate 1And wavelength X 2Be equivalent to 1/4 wavelength plate, but to wavelength X 3Do not play the function of wavelength plate.
(viii) last, the face of the formation phase-plate 33 of transparency carrier 31 is adhesively fixed on liquid crystal lens element 10, become liquid crystal lens element 30.As a result, acquisition is at the action effect of the 2nd embodiment explanation.In addition, liquid crystal lens element 30 is installed on the driver 7 of the optical-head apparatus shown in Figure 9 40 that illustrates in the 3rd embodiment.
By this example, for example in Fig. 9, at light in the outlet that CD D assembles, when liquid crystal lens element 30 is off-state, to the wavelength X of BD 1The incident light of ordinary light polarized light (direction of polarized light is the polarization plane of Y direction), can be to assemble well on the information recording layer of BD CD of 0.1mm in cover thickness across operating distance 0.96mm.In addition, to the wavelength X of DVD 2The incident light of ordinary light polarized light, can be to assemble well on the information recording layer of DVD CD of 0.6mm in cover thickness across operating distance 0.68mm.In addition, when liquid crystal lens element 30 is on-state, to the wavelength X of CD 3The incident light of very light polarization light (direction of polarized light is the polarization plane of Y direction), can be to assemble well on the information recording layer of CD CD of 1.2mm in cover thickness across operating distance 0.60mm.
In addition, assemble to the loop of photodetector wavelength X at the reflected light at CD D place 1And wavelength X 2Light be transformed into very light polarization light by liquid crystal lens element 30, assemble well to each photodetector.Wavelength X 3Light with the former state of unusual light polarization light from liquid crystal lens element 30 outgoing, assemble to photodetector well.As a result, use BD object lens 5 and liquid crystal lens element 30, realize the record reproducing of 3 kinds of CDs of BD, DVD and CD.
[example 2]
Below, with reference to figure 1 and Fig. 4 the specific embodiment of the liquid crystal lens element of the present invention 10 shown in the 1st embodiment is carried out following explanation.
Liquid crystal lens element 10 in the liquid crystal lens element 30 of example 1 and example 2 following 2 different.That is, use high molecule liquid crystal to replace SiO as the Fresnel lens that forms by jog 17 xN yFilm is that the Fresnel lens of convex becomes the Fresnel lens that central part is a matrix with the shape of jog 17 by the central part of Fig. 1.In addition, as the liquid crystal of liquid crystal layer 16, use nematic crystal to replace nematic crystal with negative dielectric anisotropy with positive dielectric anisotropy.
At this, high molecule liquid crystal forms ordinary refraction index n Fo(=1.52) and unusual optical index n Fe(=1.66), along the jog 17 of the thickness 3.2 μ m of X-direction molecular orientation.In addition, the liquid crystal of liquid crystal layer 16 is ordinary refraction index n o(=1.50) and unusual optical index n e(=1.66), its medium anisotropy Δ ε are 11, the direction of orientation of the liquid crystal molecule when not applying voltage and high molecule liquid crystal be equally towards X-direction.Surface at the jog 17 that is formed by high molecule liquid crystal does not form alignment films, directly carry out friction treatment by surface in X-direction to high molecule liquid crystal, the orientation of the liquid crystal molecule on jog 17 surfaces when not applying voltage becomes parallel-oriented towards X-direction.In addition, along with voltage application, liquid crystal molecule tilts to Z-direction, near vertical orientated.
Because to ordinary light polarized light and unusual light polarization light, (V=V when not applying voltage oThe substantial refractive index of liquid crystal layer 16=0) is approximately consistent with the refractive index of jog 17, does not therefore depend on incident light wavelength and polarized light state, the thickness d of jog 17 FThe 1st transparency electrode 13 and the optical length between the 2nd transparency electrode 14 and the Fresnel lens center (d of position FThe optical path difference OPD of optical length=0) is d no matter FValue how all almost nil.That is, the incident light of the liquid crystal lens element 10 of off-state does not have to occur seeing through the variation on corrugated, sees through but carry out straight line.
On the other hand, apply voltage V between transparency electrode, then for the unusual OPD of (4) formula of the incident light of light polarization light if increase 0Occur changing, have wavelength X CD 3The OPD of=790nm 0Be roughly λ 3Apply voltage V PTherefore, by applying voltage V OWith V PConversion, be incident to the wavelength X of liquid crystal lens element 10 3The very light polarization light diverging light that sees through corrugated and the negative magnification suitable that is transformed into no magnification with the β of Fig. 3 see through the corrugated.Therefore, can obtain the identical action effect of part with the liquid crystal lens element 10 of example 1.
Below, the optical-head apparatus 40 that this liquid crystal lens element 10 is installed on the driver shown in Figure 97 that illustrates in the 3rd embodiment is described.At this, as BD with object lens 5, the DVD that uses the liquid crystal lens element 30 that forms Fig. 5 on the surface of object lens with phase compensation face 32 with the corresponding BD object lens of DVD exchange.In addition, the part of the phase-plate 33 of the liquid crystal lens 30 of Fig. 6 is clipped in a pair of transparency carrier and single phase-plate arrangements of components in the light path of closing between ripple prism 3 and the collimation lens 4.
When adopting such structure, be incident to the wavelength X of liquid crystal lens element 10 1And wavelength X 2Light become circularly polarized light, but the liquid crystal lens element 10 of off-state is regardless of the incident polarization light state, sees through the corrugated and all do not change.In addition, wavelength X 3Light be incident to the liquid crystal lens element 10 of on-state with unusual light polarization light former state, the diverging light that becomes the concavees lens function sees through the corrugated, carries out outgoing, therefore can obtain the action effect same with example 1.As a result, use with DVD and exchange corresponding BD object lens and liquid crystal lens element 10, realize the record reproducing of 3 kinds of CDs of BD, DVD and CD.
[example 3]
Below, with reference to Figure 10, the specific embodiment of the liquid crystal lens element of the present invention 50 shown in the 4th embodiment is carried out following explanation.
The 1st 50C of liquid crystal lens portion and the 2nd 50D of liquid crystal lens portion by with example 1 in the identical structure of the liquid crystal lens element of the present invention that describes in detail 30 constitute, play the effect of the aberration compensation element of individual layer and double-deck BD CD.
Along with the difference of application target, below constitute different with liquid crystal lens element 30.
The Fresnel lens of jog 17C and 17D is by the refractive index n of wavelength 405nm FThe SiO of (=1.50), thickness d (=1.5 μ m) xN yFilm forms, and forms in the zone of the effective diameter φ=3.6mm of lens displacement (shift) width ± 0.3mm when adding tracking in the NA of object lens.In addition, as the liquid crystal of liquid crystal layer 16C, 16D, use ordinary refraction index n o(=1.50) and unusual optical index n e(=1.66), nematic crystal with negative dielectric anisotropy, and to use gap control material to make the maximum ga(u)ge of liquid crystal layer be 6 μ m.At this, form alignment films at the interface that joins with liquid crystal layer, so that the direction of orientation of the liquid crystal molecule when applying voltage is that 16C and 16D are perpendicular through orientation process.
At this, the shape of jog 17C and 17D is processed into, to the incident light of wavelength 405nm, (apply voltage V in liquid crystal lens element 50 on-states p=3.5V) under, it sees through the corrugated becomes coefficient a shown in the use table 3 1~a 5(1) formula of value shown in optical path difference OPD.When the coefficient shown in the table 3 is the information recording surface of the object lens that will the individual layer BD CD of cover thickness 0.1mm the be formed minimum aberration double-deck BD CD that is used for cover thickness 0.075mm, designs to make also compensate and comprise between object lens and the liquid crystal lens element 50 ± aberration of appearance obtains during 0.3mm eccentric result by liquid crystal lens element 50.If the specification difference of the object lens that use, then its coefficient value is also different.
Table 3
Coefficient Value
a 1 1.966152
a 2 0.193135
a 3 -0.335921
a 4 0.330062
a 5 -0.170476
a 6 0.043338
a 7 -0.004350
a 8 0.000021
The result, regardless of the polarization of incident light light state, do not change on the corrugated that sees through of the incident light of liquid crystal lens element 50 down in off-state (not applying voltage), see through the corrugated but under on-state, wavelength 405nm is become the convergence that is caused by the lens function suitable with convex lens.
The liquid crystal lens element 50 of gained like this is installed in the record reproducing of BD CD shown in Figure 12 with in the optical-head apparatus 60.At this, design object lens 5, feasible individual layer BD CD to cover thickness 0.1mm forms minimum aberration.At this, carry out in the record reproducing at information recording surface the cover thickness 0.1mm of individual layer and double-deck BD CD, by use liquid crystal lens element 50 under off-state, changing does not appear in the corrugated that sees through of liquid crystal lens element 50, therefore can carry out stable record reproducing.On the other hand, carry out in the record reproducing at information recording surface the cover thickness 0.075mm of double-deck BD CD, by under on-state, using liquid crystal lens element 50, can effectively compensate the aberration that the difference by cover thickness causes, therefore can stably carry out record reproducing.
In Figure 14, use ● and zero be illustrated in disconnect and on-state under when using liquid crystal lens element 50 to carry out the record reproducing of information recording surface of cover thickness 0.1mm and 0.075mm, with the be shifted result of calculation of the RMS wave aberration that occurs of the tracking of object lens 5.17m λ can be stably kept in object lens displacement to 0.3mm 1(rms) Yi Xia order of aberration.For the ease of relatively, in Figure 14 with black square represent to use with object lens be provided with in addition in the past only compensate the liquid crystal aberration compensating element, of spherical aberration the time the result of calculation of RMS wave aberration.For the displacement of the object lens more than the 0.1mm, 60m λ appears 1(rms) Yi Shang aberration can not play the effect as the aberration compensation element after this manner.
[example 4]
Below, as other embodiment of the liquid crystal lens element of the present invention 50 shown in the 4th embodiment, the example that the aberration compensation element as individual layer and DVD-dual layer CD uses is carried out following explanation.
Along with the difference of application target, below constitute different with the liquid crystal lens element 50 of example 3.
The Fresnel lens of jog 17C and 17D is by the refractive index n of wavelength 660nm FThe SiO of (=1.49), thickness d (=2 μ m) xN yFilm forms, and forms in the zone of the effective diameter φ=4.6mm of the lens displacement width ± 0.3mm when adding tracking in the NA of object lens.In addition, as the liquid crystal of liquid crystal layer 16C, 16D, use ordinary refraction index n o(=1.49) and unusual optical index n e(=1.65), nematic crystal with negative dielectric anisotropy, and to use gap control material to make the maximum ga(u)ge of liquid crystal layer be 8 μ m.At this, form alignment films at the interface that joins with liquid crystal layer, so that the direction of orientation of the liquid crystal molecule when applying voltage is that 16C and 16D are perpendicular through orientation process.
At this, the shape of jog 17C and 17D is processed into, to the incident light of wavelength 660nm, (apply voltage V in liquid crystal lens element 50 on-states p=3.5V) under, it sees through the corrugated becomes coefficient a shown in the use table 4 1~a 5(1) formula of value shown in optical path difference OPD.When the coefficient shown in the table 3 is the information recording surface of the object lens that will the CD of cover thickness 0.59mm the be formed minimum aberration CD that is used for cover thickness 0.62mm, designs to make and also comprise between object lens and the liquid crystal lens element 50 ± aberration of appearance obtains during 0.3mm eccentric result by liquid crystal lens element 50 compensation.If the specification difference of the object lens that use, then its coefficient value is also different.
Table 4
Coefficient Value
a 1 -0.735147
a 2 -0.003162
a 3 -0.000222
a 4 0.000217
a 5 -0.000021
The result, regardless of the polarization of incident light light state, the corrugated that sees through of the incident light of liquid crystal lens element 50 does not change under off-state (not applying voltage), but under on-state wavelength 660nm is become by dispersing through the corrugated that the lens function suitable with concavees lens causes.
The liquid crystal lens element 50 of gained like this is installed in the record reproducing of DVD CD shown in Figure 12 with in the optical-head apparatus 60.At this, design object lens 5, feasible CD to cover thickness 0.59mm forms minimum aberration.At this, carry out in the record reproducing at information recording surface the DVD-dual layer CD of the individual layer DVD CD of cover thickness 0.6mm and cover thickness 0.57mm, under off-state, use liquid crystal lens element 50.On the other hand, carry out in the record reproducing, under on-state, use liquid crystal lens element 50 at information recording surface to the DVD-dual layer CD of cover thickness 0.63mm.
In Figure 15, use ● and zero expression use disconnect and on-state under liquid crystal lens element 50, to the result of calculation of the RMS wave aberration of the CD appearance of cover thickness 0.57mm to 0.63mm.Same with example 3, follow object lens 5 tracking displacement the RMS wave aberration increase seldom.Therefore, to the CD of cover thickness 0.57mm to 0.605mm,, can keep 28m λ by under off-state, using liquid crystal lens element 50 2(rms) Yi Xia RMS wave aberration to the CD of cover thickness 0.605mm to 0.63mm, by using the liquid crystal lens element 50 under on-state, becomes 21m λ 2(rms) Yi Xia RMS wave aberration.As a result, owing to the different aberrations that cause that effectively compensated by the cover thickness of individual layer and DVD-dual layer CD, therefore can stably carry out record reproducing.For the ease of relatively, the result of calculation of the RMS wave aberration during with the individual layer DVD objective lens for optical disk that uses cover thickness 0.6mm is represented with the solid line of Figure 15.Maximum 43m λ appears in the CD to cover thickness 0.57mm to 0.63mm 2(rms) aberration particularly is difficult to carry out the record reproducing of stable DVD-dual layer CD.
In the example 4, shown that the CD to cover thickness 0.59mm and 0.62mm forms the object lens 5 of minimum aberration and the design example of liquid crystal lens element 50, but also can be other 2 kinds of cover thicknesss to be formed the combination of minimum aberration.In addition, the invention is not restricted to above-mentioned any embodiment, in the scope that does not break away from its main points, can implement various schemes.
The possibility of utilizing on the industry
Liquid crystal lens element of the present invention does not depend on the polarized light state of incident light when not applying voltage, do not make through the corrugated and change, simultaneously when applying voltage to the unusual incident light of light polarization light wavelength, can give aberration compensation function and concavees lens function. In addition, by with liquid crystal lens element of the present invention and object lens integrative installation technology in optical-head apparatus, can be used for optical-head apparatus small-sized, that can stably record and/or reset a plurality of CDs.
In addition, liquid crystal lens element of the present invention can be at the record reproducing of the CD with individual layer and double-deck information recording surface with in the optical-head apparatus, is used as the aberration compensation element that reduces the aberration that the difference by overburden cover causes. Particularly since can with liquid crystal lens element of the present invention and object lens in addition configuration be installed in the optical-head apparatus and use, so can be used for optical-head apparatus small-sized, can stably carry out record reproducing to a plurality of CDs.
In addition, this be incorporated in Japanese patent application 2004-211246 number of filing an application on July 20th, 2004, the full content of Japanese patent application 2004-284752 number the instructions of filing an application on September 29th, 2004 and Japanese patent application 2005-060597 number claims, accompanying drawing and the summary of filing an application on March 4th, 2005, as the disclosure of instructions of the present invention.

Claims (6)

1. liquid crystal lens element, it is to possess a pair of transparency carrier of subtend and liquid crystal layer that liquid crystal is clamped by described transparency carrier, and the liquid crystal lens element that the focus point of the light that sees through described liquid crystal layer changed according to the size of the voltage that described liquid crystal layer is applied, it is characterized in that
Possess,
Fresnel lens is formed on an above-mentioned side's the tabular surface of transparency carrier and transparency carrier subtend the opposing party, has the jog that the cross section is a concaveconvex shape,
The 1st transparency electrode, described the 1st transparency electrode are formed at the surface of the jog of a described side's who constitutes described Fresnel lens the tabular surface of Fresnel lens bottom of transparency carrier or described Fresnel lens,
The 2nd transparency electrode, described the 2nd transparency electrode are formed at the tabular surface of described the opposing party's a transparency carrier and transparency carrier subtend described side;
The substantial refractive index n (V) of described liquid crystal layer is according to the size of the voltage V that applies between described the 1st transparency electrode and the 2nd transparency electrode, the refractive index of the on-state of the variations in refractive index of the off-state of (V=0) when applying voltage when very the incident light of light polarization light never applies voltage, simultaneously, how to be ordinary refraction index n with respect to no matter the exert pressure size of voltage of the incident light of ordinary light polarized light o, and,
Satisfy each condition in following (1)~(3),
(1) described liquid crystal layer is that dielectric anisotropy is the nematic crystal of bearing, and the direction of orientation of the liquid crystal molecule of described off-state is vertical or subvertical angle with respect to the surface of described Fresnel lens, simultaneously,
Described Fresnel lens is by refractive index n FValue and the ordinary refraction index n of described liquid crystal layer oIdentical or approaching homogeneous refraction materials forms,
(2) described liquid crystal layer is that dielectric anisotropy is positive nematic crystal, and the direction of orientation of the liquid crystal molecule of described off-state is parallel or approaching parallel state with respect to the surface of described Fresnel lens, simultaneously,
Described Fresnel lens is made of birefringent material, the very optical index n of described material FeValue and the very optical index n of liquid crystal layer e(n e≠ n o) identical or approaching, and its ordinary refraction index n Fo(n Fe≠ n Fo) value and the ordinary refraction index n of described liquid crystal layer oIt is identical or approaching,
(3) described liquid crystal layer is that dielectric anisotropy is positive nematic crystal, and the direction of orientation of the liquid crystal molecule of described off-state is parallel or approaching parallel state with respect to the surface of described Fresnel lens, simultaneously,
Described Fresnel lens is by the value of refractive index and the very optical index n of described liquid crystal layer eIdentical or approaching homogeneous refraction materials forms, and,
A side of described a pair of transparency carrier, be formed for offsetting under the above-mentioned off-state to the incident light of the ordinary light polarized light of described liquid crystal lens element and see through the polarized light Fresnel lens of the phase differential that is produced between the light.
2. liquid crystal lens element as claimed in claim 1 is characterized in that, for 3 kinds of different wave length λ of incident 1, λ 2, λ 31<λ 2<λ 3), at least one side's of described a pair of transparency carrier substrate, forming the phase compensation face that constitutes by a plurality of steps, a bench height of described step is with respect to wavelength X 1And λ 3For the optical path difference of the integral multiple of wavelength or the value approaching, with respect to wavelength X with it 2Non-integral multiple optical path difference for wavelength.
3. liquid crystal lens element as claimed in claim 1 or 2 is characterized in that, forms diffraction grating at the periphery with a smooth face nipped liquid crystal layer opposition side described a pair of transparency carrier.
4. optical-head apparatus, it be have light source, will assemble object lens to the different optical recording media of tectal thickness from the emergent light of described light source, detect by behind the described object lens optically focused by the optical-head apparatus of the photodetector of the light of the information recording layer of described optical recording media reflection, it is characterized in that
Each described liquid crystal lens element in the configuration claim 1~3 in the light path between described light source and described object lens, described liquid crystal lens element has by the wave front that sees through that produces under the on-state is changed, compensation is with respect to the function of the wave aberration of described optical recording media appearance, and the concavees lens function that enlarges interval between object lens and the above-mentioned optical recording media.
5. optical-head apparatus, it be light source with the light that penetrates wavelength X, will from the emergent light of described light source assemble object lens to the optical recording media, will by the optical splitter of the light partial wave that is reflected by described optical recording media behind the described object lens optically focused, detect above-mentioned by the optical-head apparatus of the photodetector of the light of partial wave, it is characterized in that
Described optical recording media has the different a plurality of information recording layers more than 2 layers of tectal thickness, the described liquid crystal lens element of claim 1 is set in the light path between described light source and described object lens, off-state by the described liquid crystal lens element of conversion and on-state apply voltage, carry out record and/or playback to the different information recording layer of above-mentioned tectal thickness.
6. optical-head apparatus as claimed in claim 4 is characterized in that,
Described liquid crystal lens element is made of the 1st liquid crystal lens portion and the 2nd liquid crystal lens portion,
The 2nd transparency electrode that the 1st and the 2nd liquid crystal lens portion all possesses Fresnel lens, forms on the 1st transparency electrode that forms on the tabular surface of a described side's who is formed with described Fresnel lens transparency carrier and the tabular surface in described the opposing party's a transparency carrier and transparency carrier subtend described side, described Fresnel lens is formed on a described side's the tabular surface of transparency carrier and transparency carrier subtend the opposing party, the cross section is a concaveconvex shape, by the value of refractive index and the ordinary refraction index n of described liquid crystal layer oIdentical or approaching homogeneous refraction materials forms, and has jog,
Described liquid crystal layer is that dielectric anisotropy is the nematic crystal of bearing, and the direction of orientation of the liquid crystal molecule of described off-state is vertical or subvertical state with respect to the surface of described Fresnel lens, simultaneously,
The substantial refractive index n (V) of liquid crystal layer is according to the size of the voltage V that applies between described the 1st transparency electrode and the 2nd transparency electrode, the refractive index of the on-state of the variations in refractive index of the off-state of (V=0) when applying voltage when very the incident light of light polarization light never applies voltage, simultaneously, how to be ordinary refraction index n with respect to no matter the exert pressure size of voltage of the incident light of ordinary light polarized light o, described the 1st liquid crystal lens portion under the on-state is vertical mutually with the direction of the ordinary refraction index of the liquid crystal layer of described the 2nd liquid crystal lens portion.
CNB200580024666XA 2004-07-20 2005-07-20 Liquid crystal lens element and optical head device Expired - Fee Related CN100437225C (en)

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JP211246/2004 2004-07-20
JP284752/2004 2004-09-29
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CN104635351A (en) * 2013-09-17 2015-05-20 庄臣及庄臣视力保护公司 Method and apparatus for ophthalmic devices including hybrid alignment layers and shaped liquid crystal layers
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CN113785233A (en) * 2019-05-03 2021-12-10 脸谱科技有限责任公司 Wafer lens assembly and optical system thereof
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