CN1390315A

CN1390315A - Beamsplitter device producing parallel output beams

Info

Publication number: CN1390315A
Application number: CN00815589A
Authority: CN
Inventors: B·A·斯科特
Original assignee: Corning Inc
Current assignee: Corning Inc
Priority date: 1999-09-14
Filing date: 2000-08-25
Publication date: 2003-01-08
Also published as: EP1214621A1; AU7333400A; KR20020035600A; WO2001020387A1; CA2385008A1

Abstract

A beamsplitter device for splitting an input beam of light having a plurality of components into a corresponding plurality of output light beams that each travel in a substantially parallel manner. In one embodiment, the beamsplitter device is configured as a polarizing beamsplitter device so as to split the input beam into separate polarization components by using a polarizing coating. Alternatively, in another embodiment, the beamsplitter device is configured as a wavelength filtering beamsplitter so as to split the input beam into separate wavelength components, by using a plurality of wavelength division multiplexing (WDM) coatings. The beamsplitter device comprises a planar transparent structural sheet or wall having substantially parallel first and second opposing surfaces. An input face portion receives the input beam and a plurality of output face portions transmits the output beams. A reflecting material internally reflects light within the sheet.

Description

Produce the beam splitter apparatus of collimated output beam

Related application

The application requires the interests of the U.S. Provisional Application submitted on September 14th, 1999 number 60/153,913, and by being by with reference to all being merged

Background of invention

Invention field

The present invention relates to light control device, especially, relate to the beam splitter apparatus that the input beam that will have a plurality of different components is divided into a plurality of corresponding output beams of propagating with parallel direction in fact.

The description of association area

Beam splitter commonly used in scientific circles and the industry, the input beam that will have a plurality of components is separated into a plurality of output beams.Especially, some beam splitters are divided into the linear polarization output beam with polarized orthogonal axle with the light beam of unpolarized or partial polarization.Other beam splitter apparatus can be divided into corresponding a plurality of monochromatic in fact output beam with multicolour light beam or the broad band light beam with a plurality of wavelength component, or has the output beam of narrower spectral bandwidth.

Yet this beam splitter of two types does not provide the output beam of propagating with the parallel direction of essence.Therefore, if the expectation collimated output beam will use the optional feature that can make one or more output beams change direction so.Because optional feature is to separate assembling with beam splitter apparatus, therefore requires to aim at, this may cause having the output beam of the relatively poor depth of parallelism.

For example, polarization beam splitting cube is usually used in converting unpolarized input beam to point to respectively linear polarization output beam.Especially, typical polarization beam splitting cube comprises a transparent material, and it comprises input face and along first output face of the corresponding outside surface configuration of this cube.This cube also comprises along cube second output face of outside surface configuration so that vertical with first output face.This cube also have along cube the polarizing coating of inner opposite angle face configuration.

Therefore, if input beam enters input face with vertical mode, input beam impacts coating with 45 so.Incident angle with 45 °, polarizing coating is suitable for making p-component (the time variation amount that just is parallel to the electric field intensity of the coating) transmission of input beam by coating so instead, and the s-component time variation amount of the electric field intensity of coating (just perpendicular to) of input beam is coated to be reflected with 45 and make.So configuration first and second output faces make the p-component penetrate from first output face in vertical mode, and the s-component are penetrated from second output face with vertical mode.Therefore, typical polarization beam splitting cube provides p-polarization and the s-polarization of propagating with orthogonal directions.

For parallel polarization output beam is provided, use first and second polarization beam splittings cube usually.Particularly, first cube of p-polarization and s-light beam that is used to provide the quadrature sensing.Assemble discretely second cube with first cube, and be configured in the s-light beam from the path of first cube of outgoing with second cube, first and second cubes polarizing coating plane is parallel to each other in order to do making.So configuration is these two cubes, makes second output face of winning cube be parallel to second cube input face.Therefore, the s-light beam is by the reflection of second cube polarizing coating, thereby makes by the p-light beam of first cube of outgoing and parallel to each other by the s-light beam of second cube of outgoing.

Though the above combination of beam splitting cube provides general parallel output beam, it can not provide highly parallel output beam usually.Especially, the depth of parallelism of output beam is mainly by two cubes relative aligning decision.Owing to cube independently be assemblied in the optical system separately, thus be difficult to will be cube relative to each other accurate aligning.In addition, if in two cubes one amount relatively little with respect to another skew one is for example caused that by the environmental impact such as vibration and temperature variation the depth of parallelism will degenerate to unacceptable inferior grade so.

From above will be understood that, need a kind of improved beam splitter apparatus, it can provide the different output beams with higher level depth of parallelism.The device of the output beam that is separated according to polarization or wavelength especially, need be provided.In addition, also need the response environment influence and the device of the maintenance higher level depth of parallelism.

Summary of the invention

The present invention has satisfied above-mentioned needs, and according to an aspect, the present invention is first and second beam splitter apparatus of collimated output beam in fact that the input beam that will have at least the first and second components is divided into that corresponding space separates.This device comprises transparent component, and this member comprises input face with at least one input face part and the output face with at least two output face parts.Determine the direction of input face part, partly to reflect input beam to first output face, and first output face partly is suitable for the first component transmission that (a) make input beam by the first output face part instead, so that first output beam and (b) second component of reflection input beam are provided.Dispose the second output face part, receiving the second component of input beam, and be suitable for making the second component transmission of input beam by the second output face part, so that second output beam is provided it instead.So determine the direction of surface portion, make that first and second output beams are to be the output of parallel direction in fact.

In one embodiment, first and second components of input beam are first and second polarized components, the relative to each other cross polarization of first and second output beams.In another embodiment, first and second components of input beam are first and second wavelength component, and first and second output beams have narrower spectral bandwidth.

In another aspect of this invention, polarizing beam splitter device comprises a member, and this member comprises the transparent medium with parallel in fact surface, first and second planes.First surface refract light like this, the feasible unpolarized input beam that enters the light of first surface points to second surface.Second surface has the output with a certain material, and the first polarized component transmission that this material (a) makes input beam is by output, so that the first polarization output beam is provided and (b) second polarized component is reflexed to reflecting material on the first surface.Second polarized component of reflecting material reflection input beam is used for by the second surface refraction, so that the second polarization output beam so is provided, makes the first and second polarization output beams propagate with the parallel direction of essence.

In still another aspect of the invention, polarizing beam splitter device comprises a member, and this member comprises first and second plane surfaces that are configured in parallel in fact all, and is configured in the transparent medium between first and second surfaces.This device also comprises along the polarizing coating of first's configuration of second plane surface.This device is suitable for making the unpolarized input beam of the light that enters the first plane surface first to point to polarizing coating so instead.First polarized component of polarizing coating transmission input beam, so that the first polarization output beam is provided, and second polarized component that reflects input beam to the second portion of first plane surface.At the second portion place of first plane surface, second polarized component is to the second portion reflection of second plane surface.Second polarized component of the second portion transmission input beam of second plane surface is so that provide to be parallel to the second polarization output beam that the first polarization output beam direction is propagated in fact.

In still another aspect of the invention, the filtering beam splitter apparatus comprises a member, and this member comprises the transparent medium with parallel in fact surface, first and second planes.First surface refract light like this, the feasible input beam that enters the light of a plurality of wavelength component of having of first surface points to second surface.Second surface has first and second outputs.First output has certain material, and the first wavelength component transmission that this material (a) makes input beam is by first output, so that the first arrowband output beam is provided and (b) second wavelength component is reflexed to reflecting material on the first surface.Reflecting material reflexes to first output with second wavelength component of input beam.The second output transmission, second wavelength component so that the second arrowband output beam so is provided, makes the first and second arrowband output beams propagate with parallel in fact direction.

From above it is evident that, the preferred embodiment of beam splitter apparatus of the present invention can be divided into the input beam with first and second components first and second output beams of propagating with parallel direction in fact.Especially, in one aspect of the invention, the non-polarized light beam that beam splitter apparatus will have first and second polarized components is divided into first and second linear polarized beams with polarized orthogonal axle.In addition, in another aspect of the present invention, the polychrome input beam that beam splitter apparatus will have first and second wavelength component is divided into the corresponding first and second arrowband output beams.From following description in conjunction with the drawings, these and other objects of the present invention and advantage will be more obvious.

Description of drawings

Fig. 1 is the synoptic diagram that shows polarizing beam splitter device one side, and it has illustrated the non-polarized light beam of access to plant and with s-polarization and the p-polarization output beam of the parallel mode of essence from the device outgoing;

Fig. 2 is the synoptic diagram that shows polarization beam apparatus system one side, and it has illustrated first and second non-polarized light beams of access to plant and from first and second pairs of polarization output beams of device outgoing;

Fig. 3 is the synoptic diagram that shows filtering beam splitter apparatus one side, and it has illustrated the multicolour light beam of access to plant and with a plurality of beams of narrow-band light of the parallel mode of essence from the device outgoing;

Fig. 4 is the synoptic diagram of another embodiment one side of filtering beam splitter apparatus in the displayed map 3, it illustrated access to plant multicolour light beam and along first direction from the device outgoing first parallel beams of narrow-band light with along second direction from the device outgoing second batch of parallel beams of narrow-band light.

The detailed description of preferred embodiment

Description is wherein all represented similar part with similar label.As shown in Figure 1, polarizing beam splitter device 30 is divided into unpolarized input beam 32 the first and second polarization output beams of propagating with the essence parallel direction 34,36.Unpolarized input beam 32 is propagated by the external agency 38 such as air, and access to plant 30.Unpolarized input beam 32 generally comprises the combination of two linear polarization component with mutually orthogonal polarization axle.In addition, as will be described in detail, device 30 separates these components substantially, and other place is also referred to as first and second polarized components hereinafter, so that the first and second cross polarization output beams 34,36 are provided.In addition, first output beam 34 with first polarization penetrates from installing 30 along parallel in fact direction with second output beam 36 with second polarization.

As shown in Figure 1, beam splitter apparatus 30 has the input face that comprises an input face part 40 and comprises the output face of at least two output face parts 42,44.These faces are that the transparent material of T forms by a slice thickness, and this material provides the rigidity of structure.Sheet material 46 comprises first and second plane surfaces 48,50 that are configured in parallel in fact corresponding all planes.

The input face part 40 of input beam 32 accesss to plant 30, and in the experience refraction of first index ellipsoid, 52 places, so that first deflecting light beams 60 is provided.Input beam 32 defines the first incident angle θ with respect to the normal of sheet material 46 first surfaces 48 ₁In addition, first deflecting light beams 60 defines the first refraction angle θ according to following equation with respect to the normal of second surface 50 ₂:

n _outsinθ ₁＝n _insinθ ₂ (1)

N wherein _OutBe the refractive index of the external agency 38 of apparatus adjacent 30, n _InIt is the refractive index of sheet material 46.

In one embodiment, input face part 40 comprises along first antireflecting coating 62 of the relative thin of first index ellipsoid 52 configuration of first surface 48.The purpose of first antireflecting coating 62 is to strengthen the transmission of input beam 32 by first index ellipsoid 52.

First deflecting light beams 60 is propagated by sheet material 46, and the polarized regions 56 that enters second surface 50, so that define the second incident angle θ with respect to the normal of the second surface 50 of sheet material 46 ₃Because essence is parallel each other on first and second surfaces 48,50 of sheet material 46, so the second incident angle θ ₃Essence equals the first refraction angle θ ₂

Output face part 42 comprises along the polarizing coating 64 of polarized regions 56 configurations of second surface 50.Polarizing coating 64 transmissions have the linear polarized beam of first polarization, and this light beam is with the second incident angle θ ₃Enter coating.In addition, second linear polarized beam with second polarization of the similar sensing of polarizing coating 64 reflections.In one embodiment, polarizing coating 64 is suitable for transmission p-polarized light instead, and reflection s-polarized light.

Therefore, first polarized component of first deflecting light beams 60 penetrates from installing 30 by the first output face part 42, so that the first polarization output beam 34 with first polarization is provided.Especially, first output beam 34 penetrates from the first output face part 42, so that define the first emergence angle φ according to following equation with respect to the normal of wall 46 second surfaces 50 ₁:

n _insinθ ₃＝n _outsinφ ₁ (2)

In addition, according to equation (1) and (2) and angle θ ₃And θ ₂Essence equates, the first emergence angle φ ₁Equal the first incident angle θ in fact ₁

As shown in Figure 1, second polarized component of first deflecting light beams 60 is from polarizing coating 64 reflections, so that first folded light beam 66 with second polarization is provided, it has defined the first reflection angle θ with respect to sheet material second surface normal ₄In addition, according to reflection law, the first reflection angle θ ₄Equal the second incident angle θ ₃

As shown in Figure 1, first folded light beam 66 propagates into the reflectance coating that disposes on the reflector space 54 by sheet material 46, and reflector space 54 is along first surface 48 configurations of sheet material 46.66 definition of first folded light beam are with respect to the 3rd incident angle θ of the normal of wall 46 first surfaces 48 ₅Because first and second surfaces 48,50 of wall are parallel in fact each other, so the 3rd incident angle θ ₅Equal the first reflection angle θ in fact ₄

First folded light beam 66 with second polarization reflects away from the reflector space 54 of first surface 48, so that second folded light beam 68 with second polarization is provided, it defines the second reflection angle θ with respect to the normal of sheet material 46 first surfaces 48 ₆According to reflection law, the second reflection angle θ ₆Equal the second incident angle θ ₅Second folded light beam 68 propagates into the second output face part 44 by sheet material 46, incides second index ellipsoid 58 of sheet material 46 second surfaces 50 at this place's light beam.Light beam 68 is with respect to second surface 50 definition the 4th incident angle θ of sheet material 46 ₇Because first and second surfaces 48,50 are parallel in fact each other, so the 4th incident angle θ ₇Equal the second reflection angle θ in fact ₆Therefore, the 4th incident angle θ ₇Equal the first refraction angle θ in fact ₂

Second index ellipsoid, the 58 places refraction of second folded light beam 68 contiguous second output face part 44 on second surface 50 is so that provide the second polarization output beam 36 with second polarization.Output beam 36 is from 44 outgoing of the second output face part, so that definition is with respect to the second emergence angle φ of the normal of second surface 50 ₂Especially, second output beam 36 reflects according to following equation:

n _insinθ ₆＝n _outsinφ ₂ (3)

According to equation (1) and (3) and angle θ ₆And θ ₂Essence equates, the second emergence angle φ ₂Equal the first incident angle θ in fact ₁So output beam is parallel in fact each other.

In one embodiment, polarizing coating 64 is suitable for transmission p-polarized light instead, and it has the polarization axle that is parallel to coating 64 planes.In addition, coating 64 is suitable for reflecting the s-polarized light instead, and it has the polarization axle perpendicular to coating 64 planes.In this embodiment, first output beam 34 is p-polarizations, and second output beam 36 is s-polarizations.

In one embodiment, along the known reflectance coating 70 of reflector space 54 configurations of sheet material 46 first surfaces 48, so that high relatively reflectivity is provided.Therefore, most of energy of first folded light beam 66 all is reflected in second folded light beam 68.In addition, in one embodiment, along second index ellipsoid, 58 configurations, second antireflecting coating 72 of second surface 50.The purpose of antireflecting coating 72 is inhibitory reflexs and strengthens the transmission at second index ellipsoid, 58 places.

In one embodiment, sheet material 46 comprises rigidity and glass in fact, and as the BK7 that German company SchottGlass makes, its refractive index is about 1.5.Especially, so form sheet material 46, make that the parallel error on first and second surfaces 48,50 is 0.5 " in.As a result, output beam 34,36 parallel error each other is 0.75 " in.In addition because wall 46 is rigidity in fact, so the height of output beam 34,36 parallel can not be subjected to basically external vibration on influence.

Therefore, will be understood that with this area in the polarizing beam splitter device known relatively, polarizing beam splitter device 30 provides a plurality of advantages.Especially, because the depth of parallelism of output beam 34,36 is mainly determined by the depth of parallelism on first and second surfaces 48,50 of sheet material 46, and because the depth of parallelism of prior-art devices is definite by the aligning that separates between the built-up member, so 30 output beams 34,36 that can provide the depth of parallelism to be better than prior-art devices in fact are provided.In addition, device 30 need not complicated alignment procedures and just can realize this depth of parallelism.Moreover, because the geometry of device is not subjected to the influence of external action in fact, always provides and have the output beam 34,36 of parallel direction in fact so install 30.In addition, device 30 is two-way, makes it can be used for producing a plurality of output beams from an input beam, and also can be used for a plurality of input beams are combined into an output beam.

In one embodiment, adopt polarizing beam splitter device 30 that polarization converter assembly 31 is provided, it converts unpolarized in fact light to quite high efficient the polarized light of first polarization.Especially, assembly 31 comprises device 30, and the polarization axle whirligig, as 1/2 ripple retardation plate 74.More particularly, plate 74 is arranged in the path of one of output beam 34,36, so that aim at the polarization axle of output beam 34,36.

For example, as shown in Figure 1, in one embodiment, plate 74 is arranged in the path of second output beam 36.Plate 74 revolves the polarization axle of second output beam 36 and turn 90 degrees, and does not change the direction of propagation of second output beam 36 in fact.Therefore, plate 74 provides second output beam 34 with first polarization.Like this, the device 30 that has a plate 74 can convert nonpolarized light to the light with first polarization with 100% efficient in fact.Yet, in another embodiment, will be understood that plate 74 can be arranged in the path of first output beam 36, so that provide both all to have the output beam of second polarization.

Like this, will be understood that polarization converter assembly 31 converts nonpolarized light to a pair of linear polarized beam with identical in fact polarization.In addition, the output beam 34,36 that provides of assembly 31 has and is about 1.5 " quite little non-parallel deviation." polarizing beam splitter device 30 of non-parallel deviation makes this depth of parallelism become possibility only to produce 0.75.In addition, because plate 74 departs from the certain amount of incident direction of output beam, this amount depends on the depth of parallelism between the outside surface of plate, so the non-parallel deviation of 74 pairs of output beams of plate 34,36 only provides 0.75 ".

Refer now to Fig. 2, it has shown polarization beam apparatus system 80 according to a further aspect of the invention.Especially, system 80 is made of first and second polarizing beam splitter devices 82,84 that normal transparent sheet material 86 forms for this reason, makes beam splitter apparatus 82,84 forever aim at each other.In other respects, device 82,84 and the device of Fig. 1 structurally with function on all identical.

Therefore, as shown in Figure 2, the first unpolarized input beam 88 that enters system's 80 first input face parts 89 is separated by system 80, the feasible first output face part, 91 ejaculations, and the feasible second output face part, 98 ejaculations with second output beam 92 of second polarization from system 80 with first polarization output beam 90 of first polarization from system 80.First and second output beams 90,92 are propagated with parallel in fact direction, and this direction is aimed at the direction of first input beam 89 in fact.The second unpolarized input beam 94 that enters system's 80 second input face parts 95 is simultaneously separated by system 80, feasible the 3rd output face part 97 ejaculations with second output beam 96 of first polarization from system 80, and make the 4th output beam 98 penetrate from the 4th output face part 99 of system.Third and fourth output beam 96,98 is propagated with parallel in fact direction, and this direction is aimed at the direction of second input beam 94 in fact.

Like this, will be understood that polarization beam apparatus system 80 provides a plurality of advantages.Especially, system 80 can be divided into the input beam of two separation two groups of corresponding a plurality of output beams.Moreover first group of a plurality of output beam is parallel to first input beam in fact, and second group of a plurality of output beam is parallel to second input beam in fact, even input beam is also not parallel each other.

Refer now to Fig. 3, it has shown filtering beam splitter apparatus 100 according to a further aspect of the invention.The device 100 of Fig. 3 receives the input beam 102 with a plurality of wavelength component.Device 100 provides a plurality of spectral bandwidths in fact than the corresponding output beam 108 of the combination spectrum narrow bandwidth of input beam 102, makes output beam penetrate from installing 100 in parallel in fact mode.In one embodiment, output beam 108 is monochromatic in fact, and each output beam 108 has different wavelength.

As shown in Figure 3, filtering beam splitter apparatus 100 is similar to the polarizing beam splitter device 30 of Fig. 1.Especially, device 100 comprises the similar transparent configuration sheet material 106 with first and second parallel surfaces 108,110.First surface 108 comprises input face part 120, and it has the reflector space 114 that is used to receive first index ellipsoid 112 of input beam 102 and is suitable for internal reflection input beam 102 instead.Yet, replacing installing 30 the polarized regions 56 and second index ellipsoid 58 among Fig. 1, the second surface 110 of device 100 has a plurality of filter field 116, makes it be suitable for providing a plurality of output face parts 124 of penetrating by installing 100 with penetrating.In addition, zone 116 so provides the band resistance reflection of input beam 102, makes input beam 102 carry out internal reflection in sheet material.

As shown in Figure 3, in one embodiment, along second surface 110 configuration a plurality of known wavelength division multiplexers (WDM) coatings 118 of wall 106, so that a plurality of filter field 116 and output face part 124 are provided.Especially, make each coating 118 be suitable for receiving and have the wide relatively light beam of spectral range, and the centre of homology near specific wavelength in fact than the frequency of close limit.In addition, device a plurality of output face parts 124 of 100 outside surface that is WDM coatings 118.Moreover each WDM coating 118 is suitable for reflecting not by the light of transmission instead.

In one embodiment, WDM coating 118 comprises the first coating 118a, the second coating 118b and the 3rd coating 118c, and they are positioned on the second surface 110 continuously.In addition,

coating

118a, 118b and 118c are suitable for the centre of homology instead and lay respectively at λ ₁, λ ₂And λ ₃Near wavelength than close limit.

Has wavelength component λ ₁, λ ₂And λ ₃The input face 120 of input beam 102 indicator devices 100 so that definition is with respect to the incident angle θ of the normal of first surface 108.In case enter input face part 120, input beam 102 just is refracted, so that first deflecting light beams of propagating to a WDM coating 118a 122 is provided.In case impacted a WDM coating 118a, had wavelength X ₁Input beam 102 component transmissions by a WDM coating 118a be λ so that wavelength is provided ₁The arrowband first output beam 104a, its definition equals the first emergence angle φ of incident angle θ in fact ₁

As shown in Figure 3, a WDM coating 118a partial reflection first deflecting light beams 122 has wavelength component λ so that provide ₂And λ ₃First folded light beam 126.Especially, first folded light beam 126 is propagated by wall 106, and by reflector space 114 reflections of first surface 108, has wavelength component λ so that provide ₂And λ ₃Second folded light beam 128.Then, second folded light beam 128 is pointed to the 2nd WDM coating 118, is λ so that wavelength is provided ₂The arrowband second output beam 104b, its definition equals the emergence angle φ of incident angle θ in fact ₂

The 2nd WDM coating 118b partial reflection second folded light beam 128 has wavelength component λ so that provide ₃The 3rd folded light beam 132.Especially, the 3rd folded light beam 132 is propagated by sheet material 106, and by reflector space 114 reflections of first surface 108, has wavelength component λ so that provide ₃The 4th folded light beam 134.Then, the 4th folded light beam 134 is pointed to the 3rd WDM coating 118c, is λ so that wavelength is provided ₃Arrowband the 3rd output beam 104c, its definition equals the 3rd emergence angle φ of incident angle θ in fact ₃

Therefore, WDM coating 118 can make input beam 102 be separated according to wavelength.In addition, provide filter field 116, and, just derived in parallel in fact mode through the output beam 104 of filtering by first surface 108 cremasteric reflex zones 114 along sheet material 106 by second surface 110 along sheet material 106.

Refer now to Fig. 4, it has shown another embodiment of filtering beam splitter apparatus 100, and this device receives the multicolour light beam 140 with first and second groups of a plurality of wavelength component.The device 100 a plurality of arrowbands output beams 142 that provide corresponding to 140 first groups of a plurality of wavelength component of input beam, output beam 142 penetrates from installing 100 with first direction.The device 100 second group of a plurality of arrowbands output beam 144 that provides corresponding to 140 second groups of a plurality of wavelength component of input beam, output beam 144 penetrates from installing 100 with second direction.

In this embodiment, device 100 comprises the sheet material 106 with first and second parallel surfaces 108,110.In addition, first surface 108 forms the input face part 120 of contiguous index ellipsoid 112, makes it be suitable for receiving input beam 140.Moreover, along a plurality of WDM coatings 118 of second surface 110 configurations,, and provide the device 100 of a plurality of output face parts 124 in the mode of Fig. 3 with contiguous second surface 110 so that the second surface 110 with a plurality of filter field 116 is provided.

Yet in this embodiment, the reflector space 114 of first surface 108 is replaced by second group of a plurality of filter field 146 among Fig. 3 embodiment.Especially, along second group of a plurality of WDM coating 148 of first surface 108 configurations, so that second group of a plurality of output face part 150 of second filter field 146 and adjacent domain 146 is provided.Therefore, second group of a plurality of output beam 144 penetrates from second output face 150 along parallel in fact direction.Because along first surface 108 configurations second output face 150, so second output beam 144 penetrates from installing 100 along the direction that is different from first output beam 142.

Though preferred embodiment of the present invention shows, describes and pointed out to be applied to the of the present invention basic novel feature of this embodiment, but will be appreciated that, do not break away from spirit of the present invention, the person skilled in the art can carry out various omissions, substitute and change the form of shown device details.Therefore, scope of the present invention is not limited to above description, and should be limited by appended claim.

Claims

1. beam splitter apparatus, the input beam that it is used for having at least the first and second components are divided into the first and second parallel in fact output beams of corresponding apart, it is characterized in that this device comprises:

Transparent component, comprise input face with at least one input face part and output face with at least two output face parts, determine the direction of described input face part, partly to reflect described input beam to first output face, make described first output face partly be suitable for first component of (a) transmission input beam by the first output face part, with provide first output beam and (b) reflection input beam described second component; Dispose the described second output face part, to receive the second component of input beam, make described second output face partly be suitable for the second component of transmission input beam by the second output face part, so that second output beam to be provided, determine the direction of described each face portion for this reason, make first and second output beams be exported with parallel in fact direction.

2. device as claimed in claim 1 is characterized in that, described each face portion is orientated in parallel plane.

3. device as claimed in claim 2, it is characterized in that, also be included in first coating that disposes in the plane, this plane is parallel to the plane of first output face part in fact, first component of the described first coating transmission input beam, the second component of described first coating reflection input beam.

4. device as claimed in claim 3 is characterized in that, substantial configuration first coating in the plane of first output face part.

5. device as claimed in claim 2, it is characterized in that, transparent component also is included in the reflecting part that disposes in the plane, and this plane is parallel to the plane of input face part in fact, and described reflecting part is to the second component of the second output face partial reflection input beam.

6. device as claimed in claim 5 is characterized in that, the reflecting part is included in the reflectance coating of substantial configuration in the input face plane partly.

7. device as claimed in claim 2 is characterized in that, also comprises the antireflecting coating that contiguous second output face is partly disposed, and described antireflecting coating strengthens the transmission of input beam second component by second output face part.

8. device as claimed in claim 7 is characterized in that, also comprises second antireflecting coating that contiguous input face partly disposes, and described second antireflecting coating strengthens the transmission of input beam by the input face part.

9. device as claimed in claim 1 is characterized in that, first and second components of input beam are first and second polarized components, and the relative to each other cross polarization of first and second output beams.

10. device as claimed in claim 9 is characterized in that, first output beam is the p-polarization, and second output beam is the s-polarization.

11. device as claimed in claim 1 is characterized in that, first and second components of input beam are first and second wavelength component, and first and second output beams have narrower spectral bandwidth.

12. a polarizing beam splitter device is characterized in that it comprises:

Structural elements, comprise transparent medium with parallel in fact surface, first and second planes, described first surface refract light like this, make the unpolarized input beam that enters first surface point to second surface, described second surface with output has material, it (a) makes the first polarized component transmission of input beam pass through output, so that the first polarization output beam to be provided, (b) second polarized component is reflexed to reflecting material on the first surface, second polarized component of described reflecting material reflection input beam, make it to reflect by second surface, so that the second polarization output beam to be provided, the described first and second polarization output beams are propagated with parallel in fact direction.

13. device as claimed in claim 9 is characterized in that, the material of second surface output is the polarizing coating of proximity structure member second surface substantial configuration.

14. device as claimed in claim 10 is characterized in that, the reflecting material on the first surface is a reflectance coating.

15. device as claimed in claim 11, it is characterized in that, also comprise and be configured in structural elements first and second lip-deep first and second antireflecting coating respectively, described first antireflecting coating strengthens the transmission of input beam by first surface, and described second antireflecting coating strengthens the transmission of the second polarization output beam.

16. a polarizing beam splitter device is characterized in that it comprises:

Structural elements comprises being configured in first and second plane surfaces in the parallel plane in fact and being configured in transparent medium between first and second surfaces;

Polarizing coating along the configuration of the second plane surface first, described device is suitable for making the unpolarized input beam of the first that enters first plane surface to point to polarizing coating instead, first polarized component of described polarizing coating transmission input beam, so that the first polarization output beam is provided, described polarizing coating is to second polarized component of first plane surface second portion reflection input beam, state of the second portion reflection of second polarized component to second plane surface in the second portion place of first plane surface, second polarized component of the described second portion transmission input beam of second plane surface is so that provide to be parallel to the second polarization output beam that the first polarization output beam direction is propagated in fact.

17. device as claimed in claim 16 is characterized in that, also comprises along the reflectance coating of the second portion configuration of first plane surface.

18. device as claimed in claim 17 is characterized in that, also comprises along first antireflecting coating of first's configuration of first plane surface.

19. device as claimed in claim 18 is characterized in that, also comprises along second antireflecting coating of the second portion configuration of first plane surface.

20. a filtering beam splitter apparatus is characterized in that it comprises:

Structural elements, comprise transparent medium with parallel in fact surface, first and second planes, described first surface refract light like this, make the input beam that enters first surface point to second surface with a plurality of wavelength component, described second surface has first and second outputs, described first output has material, it (a) makes the first wavelength component transmission of input beam by first output, so that the first arrowband output beam is provided, (b) second wavelength component is reflexed to reflecting material on the first surface, described reflecting material is to second wavelength component of second output reflection input beam, the described second output transmission, second wavelength component, so that the second arrowband output beam is provided, the described first and second arrowband output beams are propagated with parallel in fact direction.

21. device as claimed in claim 20, it is characterized in that, the material of first output reflexes to reflecting material on the first surface with the three-wavelength component, described reflecting material reflects the three-wavelength component to second output, described second output has material, it (a) makes the second wavelength component transmission of input beam by second output, so that the second arrowband output beam is provided, (b) the three-wavelength component is reflexed to the reflecting material of first surface, described reflecting material reflects the three-wavelength component, by the second surface refraction, so that the 3rd arrowband output beam is provided, described all arrowbands output beam is propagated with parallel in fact direction.

22. device as claimed in claim 21 is characterized in that, the material of output comprises a plurality of wavelength division multiplexer coatings.

23. device as claimed in claim 22, it is characterized in that, reflecting material on the first surface comprises second group of a plurality of wavelength division multiplexer coating, the the 4th and the 5th wavelength component of described second group of a plurality of coating transmission input beam is so that provide the 4th and the 5th arrowband output beam of propagating with parallel direction in fact.