CN202024877U - Device used for calibrating transmission axes of polaroid - Google Patents

Abstract

The patent discloses a device used for calibrating the transmission axes of a polaroid, which comprises a laser, a polarizer, a rotary motor and a dynamometer probe, wherein light emitted from the laser is changed into linearly polarized light after passing through a polarizer; the linearly polarized light is used for detecting the polarization of the detected polaroid which is installed on the rotary motor provided with scales; and the dynamometer probe installed behind the detected polaroid is used for performing the laser energy detection on polarization detecting light. On the basis of the rotation symmetry principle of the transmission axes and the absorption axes of the polaroid, the device can obtain the transmission axes or the absorption axes of the detected polaroid after measuring the polarization angle of the linearly polarized light of any angles for two times in the positive and reverse directions, and then determines the transmission axes of the polaroid by utilizing the different properties of the horizontal S linearly polarized light and the vertical P linearly polarized light when the horizontal S linearly polarized light and the vertical P linearly polarized light are reflected on two dielectric interfaces, thereby achieving the high-precision calibration of the transmission axes of the polaroid.

Description

A kind of device of demarcating the polaroid light transmission shaft

Technical field

This patent relates to the polaroid detection technique, is specifically related to a kind of device of demarcating the polaroid light transmission shaft.

Background technology

Polarization is a specific character of light, along with intensification to the polarisation of light Journal of Sex Research, people recognize the wide application prospect of polarization information gradually, polarization technology also begins to enter into the practicability stage, polarization information is applied to the detection to target gradually, plays important effect in fields such as atural object remote sensing, atmospheric exploration, undersea detection, astrosurveillance, medical diagnosis, target detection, Flame Image Process and Military Application; In the quantum communications field, utilize the polarization state of photon to replace classical binary code (bit) that signal is encoded, thereby realize the distribution of quantum key, reach the purpose of quantum secret communication.Generally speaking, the utilization of polarisation of light information is become the research topic of a hot topic gradually, its achievement in research also has a wide range of applications.

Polaroid then is the most basic optical device of polarization research field, polaroid also is referred to as complete straight line polarizer or polarizer, its major function is to convert nonpolarized light or ellipse polarisation to linearly polarized light, and its application has covered whole polarized light applied technical field, and application prospect is very extensive.The artificial polaroid of being sold in the market generally is by the macromolecular material film forming, soaks iodine liquid and stretch and make, owing to the formation of iodine chain makes polaroid possess dichroism, so-called dichroism is the characteristic that material selectively absorbs one of two vertical components in the light wave, thus by polaroid only perpendicular to the line polarisation of absorption axes.And study or application at the polarized light of reality, detection to polarized light all is to finish by polaroid, need to obtain accurately the direction of polaroid light transmission shaft simultaneously, generally be to utilize PBS (polarization splitting prism) to detect polaroid light transmission shaft direction, produce the linear polarization of a horizontal S by meeting after the PBS transmission when incident light, always judge the light transmission shaft of polaroid by this line folk prescription, there is following shortcoming in this kind method of testing: 1, the axial stated accuracy of polaroid printing opacity is relevant with the direction that PBS itself produces the line polarisation, like this PBS itself is required than higher; 2, in testing process, the stated accuracy that angle that PBS itself places and degree of tilt all can polarisation-affecting sheet light transmission shafts.

This patent is based on the rotation symmetry principle of the polaroid axis of homology and absorption axes, after arbitrarily angled line polarisation being carried out positive and negative twice polarization angle measurement, can obtain the axis of homology or the absorption axes of tested polaroid, utilize horizontal S, the vertical different qualities of P linearly polarized light when two dielectric surface reflections to judge the light transmission shaft of polaroid again, thereby realize the high-precision calibrating of polaroid light transmission shaft.

Summary of the invention

The purpose of this patent provides a kind of device of accurate demarcation polaroid light transmission shaft, overcome the following problem that exists when utilizing PBS to demarcate the light transmission shaft direction that has now: 1, the direction of PBS generation line polarisation itself can influence the axial final calibration result of printing opacity, and PBS is had relatively high expectations; PBS places when 2, testing angle and degree of tilt can be introduced calibrated error.

Patent device is as shown in Figure 1: device comprises laser instrument 1, the polarizer 2, electric rotating machine 3, power meter probe 5 and optical medium 6.Described laser instrument 1 is the adjustable power fiber laser; The described polarizer 2 adopts polaroid, and its service band is 600-1200nm, and polarization extinction ratio is 10000: 1, and bore is 25mm; Described electric rotating machine 3 is for having the motor of angle index; Described power meter probe 5 adopts the power meter of silicon detector, and its service band is 400-1100nm, and the power test scope is 50nw-50mw; Described optical medium 6 is K9 glass optics plain films that flatness is better than λ/2.

During device work, be installed on the electric rotating machine 3 by analyser plate 4, the light of laser instrument 1 outgoing becomes the higher line polarisation of extinction ratio through behind the polarizer slice 2, utilization is installed in is carried out analyzing by 4 pairs of these line polarisations of analyser plate on the electric rotating machine 3 that has scale, carry out the detection of laser energy by being installed in, by determining by the light transmission shaft of analyser plate 4 or absorption axes after twice detection before and after same line polarisation is overturn by the power meter of analyser plate 4 back probe 5.Judge the light transmission shaft of polaroid at last through the different qualities of optical medium (6) reflex time by S, P line polarisation.The concrete steps of polaroid light transmission shaft scaling method are as follows:

1, laser instrument 1 emitting laser light beam, by forming line polarisation at any angle behind the polarizer slice 2, keep the polarizing angle degree constant, by polarized light being carried out analyzing by analyser plate (4), at first the scale face of electric rotating machine 3 is popped one's head in 5 towards power meter in the analyzing process, drive by electric rotating machine 3 and to be rotated together, rotate to the power meter 5 probe power minimums of popping one's head in, write down electric rotating machine 3 residing angle θ simultaneously by analyser plate 4 ₁

2, again with electric rotating machine 3 and polaroid 4 Rotate 180s °, to the scale face of electric rotating machine 3 towards polarizer slice 2, other parts remain unchanged, and drive by electric rotating machine 3 and are rotated together by analyser plate 4, rotate to power meter probe power minimum, write down electric rotating machine 3 residing angle θ simultaneously ₂

3, electric rotating machine is in The time, then be in level or vertical state by the light transmission shaft of analyser plate 4 or absorption axes;

4, at last by horizontal S, vertically the different qualities of P linearly polarized light when the two dielectric surface reflections judged the light transmission shaft of polaroid.

The concrete principle of this method is as follows:

In optical theory, polarized light is divided into line polarisation, circularly polarized light and elliptically polarized light.The all available Jones matrix of any polarized light is represented, thinks that promptly the polarized light vector can decompose on x axle and two polarization directions of y axle, promptly represents that with usually said S, P light component random polarization light can be expressed as:

$\stackrel{\→}{J}=\left(\begin{array}{c}{E}_s\\ E_p\end{array}\right)=\left(\begin{array}{c}{A}_s{e}^{i{\mathrm{\δ}}_s}\\ A_p{e}^{i{\mathrm{\δ}}_p}\end{array}\right)---\left(1\right)$

And for linearly polarized light, S, P component are in identical phase place, i.e. δ _p=δ _s=δ, then linearly polarized light can be expressed as:

$\stackrel{\→}{J}=e^{\mathrm{i\δ}}\left(\begin{array}{c}{A}_s\\ A_p\end{array}\right)---\left(2\right)$

A wherein _s, A _pBe real number.

As shown in Figure 1, when tested 4 the upset before, be θ with the angle ₁Direction to 2 inclined to one side linearly polarized lights of polarizer slice

When testing, with polarized light with θ ₁Direction and θ+pi/2 direction is decomposed, and can be expressed as:

$\left(\begin{array}{c}{A}_s\\ A_p\end{array}\right)=a\left(\begin{array}{c}\cos {\mathrm{\θ}}_1\\ \sin {\mathrm{\θ}}_1\end{array}\right)+b\left(\begin{array}{c}-\sin {\mathrm{\θ}}_1\\ \cos {\mathrm{\θ}}_1\end{array}\right)---\left(3\right)$

Can obtain:

$\left(\begin{array}{c}a\\ b\end{array}\right)=\left(\begin{array}{c}{A}_s\cos {\mathrm{\θ}}_1+A_p\sin {\mathrm{\θ}}_1\\ A_p\cos {\mathrm{\θ}}_1-A_s\sin {\mathrm{\θ}}_1\end{array}\right)---\left(4\right)$

Wherein

Linearly polarized light when representing respectively that checking bias slice is in θ and θ+pi/2 direction

The analyzing energy value and the ratio of gross energy.

Work as a=A _sCos θ ₁+ A _pSin θ ₁=0 o'clock, θ then ₁Angle analyzing energy value hour, this moment angle θ ₁Satisfy:

$\tan {\mathrm{\θ}}_1=-\frac{A_s}{A_p}---\left(5\right)$

As shown in Figure 1,180 ° of upsets have taken place when tested 4, relatively by analyser plate 4, do not compared before 180 ° with overturning, shown in attached 2, following variation has taken place in the amplitude amount of polarized light:

$\left(\begin{array}{c}{A}_s\\ A_p\end{array}\right)\→\left(\begin{array}{c}-A_s\\ A_p\end{array}\right)$ Or $\left(\begin{array}{c}{A}_s\\ A_p\end{array}\right)\→\left(\begin{array}{c}{A}_s\\ -A_p\end{array}\right)---\left(6\right)$

When being θ with the angle by analyser plate 4 ₂The linearly polarized light of direction

When testing, can obtain according to formula (4):

$\left(\begin{array}{c}a\\ b\end{array}\right)=\left(\begin{array}{c}{-A}_s\cos {\mathrm{\θ}}_2+A_p\sin {\mathrm{\θ}}_2\\ A_p\cos {\mathrm{\θ}}_2+A_s\sin {\mathrm{\θ}}_2\end{array}\right)$ Or $\left(\begin{array}{c}a\\ b\end{array}\right)=\left(\begin{array}{c}{A}_s\cos {\mathrm{\θ}}_2-A_p\sin {\mathrm{\θ}}_2\\ -A_p\cos {\mathrm{\θ}}_2-A_s\sin {\mathrm{\θ}}_2\end{array}\right)$

When a=0, θ then ₂Angle analyzing energy value hour, this moment angle θ ₂Satisfy:

$\tan {\mathrm{\θ}}_2=\frac{A_s}{A_p}---\left(7\right)$

By formula (5) and formula (7) θ as can be known ₁, θ ₂Satisfy:

θ ₁=-θ ₂Or $\frac{{\mathrm{\θ}}_1+{\mathrm{\θ}}_2}{2}=\frac{\mathrm{\π}}{2}---\left(8\right)$

By formula (8) as can be known, before and after being overturn by 4 pairs of same line polarisations of analyser plate after twice detection, twice analyzing energy value angle hour is light transmission shaft or the absorption axes symmetry with respect to polaroid 4, thereby can determine tested 4 light transmission shaft or absorption axes.

If beginning just knows by the light transmission shaft direction of analyser plate 4 that roughly above testing process just can accurately be demarcated by the light transmission shaft of analyser plate 4, scaling method is simple, accurate, and the precision of stated accuracy and electric rotating machine 5 is suitable; If to not understood fully by the information of analyser plate 4 light transmission shafts, then utilize horizontal S, the vertical different qualities of P linearly polarized light when two dielectric surface reflections to judge the light transmission shaft of polaroid during beginning, concrete grammar is described below:

As everyone knows, when light wave transmitted on the dielectric interphase, its transport property satisfied Fresnel formula, supposed that the state of incident polarized light is

Through the state after the reflection of medium face be:

$\left(\begin{array}{c}{E_s}^{\′}\\ {E_p}^{\′}\end{array}\right)=\left(\begin{array}{c}\frac{n_{12}^2\cos {\mathrm{\θ}}_i-\sqrt{n_{12}^2-{\sin }^2{\mathrm{\θ}}_i}}{n_{12}^2\cos {\mathrm{\θ}}_i+\sqrt{n_{12}^2-{\sin }^2{\mathrm{\θ}}_i}}{E}_s\\ \frac{\cos {\mathrm{\θ}}_i-\sqrt{n_{12}^2-{\sin }^2{\mathrm{\θ}}_i}}{\cos {\mathrm{\θ}}_i+\sqrt{n_{12}^2-{\sin }^2{\mathrm{\θ}}_i}}{E}_p\end{array}\right)---\left(9\right)$

In the formula

n ₁Be the refractive index of incident light medium of living in, n ₂Be the refractive index of emergent light medium of living in, θ _iIncident angle for incident light.

Utilize formula (9) to depict S, the P linearly polarized light in the reflectance curve approximate trend of two dielectric surface reflections as shown in Figure 4, wherein scheme a and represent S, reflectivity when the P linearly polarized light incides optically denser medium by optically thinner medium is with the situation of change of incident angle, figure b represents S, reflectivity when the P linearly polarized light incides optically thinner medium by optically denser medium is with the situation of change of incident angle, by the change curve of accompanying drawing 4 as can be known, in both cases, it is 0 situation that all there is reflectivity in P line polarisation, it is delustring can appear in P line polarisation under some incident angle situations situation, can judge that incident light is S or P by this characteristic, thereby distinguish by the light transmission shaft of analyser plate and absorption axes.

The advantage of this patent is: the scaling method of device is simple, utilize arbitrarily angled inclined to one side line polarisation, after being carried out the measurement of positive and negative twice polarization angle behind the polaroid of demarcating, just can calibrate the direction of light transmission shaft or absorption axes accurately, differ 90 ° between these two axis, if know the roughly direction of a certain polaroid light transmission shaft, can calibrate the direction of light transmission shaft accurately by two polaroids, utilize horizontal S again, vertically the different qualities of P linearly polarized light when two dielectric surface reflections judged the light transmission shaft of polaroid, the light transmission shaft direction of demarcating another piece polaroid at last by the polaroid of demarcating.Compare with the method for utilizing PBS to demarcate, calibration result is subjected to that ectocine is littler, precision is higher.

Description of drawings

Fig. 1 is for demarcating the detection index path of the polaroid axis of homology or absorption axes.

Fig. 2 is that polaroid S, P basic vector before and after upset change synoptic diagram.

Fig. 3 is for distinguishing the detection index path of the polaroid axis of homology and absorption axes.

Fig. 4 is the reflectance curve of S, P line polarisation reflex time on the dielectric interphase, wherein scheme a be depicted as S, when the P linearly polarized light incides optically denser medium by optically thinner medium reflectivity with the change curve of incident angle, figure b be depicted as S, when the P polarized light incides optically thinner medium by optically denser medium reflectivity with the change curve of incident angle, wherein △ represents the reflectance varies curve of S line polarisation, the reflectance varies curve of zero expression P line polarisation.

Embodiment

Be described in detail below in conjunction with the embodiment of accompanying drawing this patent.

The main devices that is adopted in the present embodiment is described below:

1) laser instrument 1: buy homemade adjustable power fiber laser, test wavelength 850nm;

2) polarizer slice 2: polaroid adopts the product of Thorlabs, and model is LPVIS100, its Specifeca tion speeification: service band is 600-1200nm; Polarization extinction ratio is 10000: 1; Caliber size is 25mm, and effective aperture is 90% of a bore; Playing inclined to one side analyzing angle is ± 20 °;

3) electric rotating machine 3: the one dimension electric rotary table that Shanghai friendship ties optical-fiber laser apparatus factory produces (360 degree scales can rotate arbitrarily), and scale least count 0.2 degree, motor synchronizing operation resolution 0.0133 degree, repetitive positioning accuracy is less than 0.05 degree.

4) power meter 5: power meter adopts the product of Thorlabs company, and model is PM120D, its Specifeca tion speeification: service band is 400-1100nm; The power test scope is 50nw-50mw; Probe is the Si detector;

5) optical medium 6: optical medium adopts common K9 glass optics plain film, and its surface smoothness is better than λ/2.

The device the main optical path synoptic diagram as shown in Figure 1, concrete condition is described below:

1, laser instrument 1 emitting laser light beam by forming line polarisation at any angle behind the polarizer slice 2, keeps the polarizing angle degree constant;

2, the scale face of electric rotating machine 3 is popped one's head in 5 towards power meter, shown in accompanying drawing 1 last figure, rotated together by analyser plate 4, rotate to power meter probe power minimum, write down electric rotating machine 3 residing angle θ simultaneously by electric rotating machine 3 drives ₁

3, with electric rotating machine 3 with by analyser plate 4 Rotate 180s °, to the scale face of electric rotating machine 3 towards polarizer slice 2, shown in accompanying drawing 1 figure below, drive by electric rotating machine 3 and to be rotated together by analyser plate 4, rotate to power meter probe power minimum, write down electric rotating machine 3 residing angle θ simultaneously ₂, when electric rotating machine is in

The time polaroid 4 be in light transmission shaft or absorption axes direction;

4, electric rotating machine 3 is rotated to

Rise partially incident light at the place, line polarisation after rising partially reflects through the K9 glass optics plain film of optical medium 6, the K9 glass optics plain film of reflex time rotary optical medium 6 changes the incident angle of incident light, the situation that delustring in rotary course, occurs, illustrate that this orientation is the absorption axes position of polaroid, then the light transmission shaft position is in

If when not occurring the delustring situation in the rotary course, this orientation is the light transmission shaft position of polaroid.

Claims (1)

1. device of demarcating the polaroid light transmission shaft, it comprises laser instrument (1), the polarizer (2), electric rotating machine (3), power meter probe (5) and optical medium (6), it is characterized in that: described laser instrument (1) is the adjustable power fiber laser; The described polarizer (2) adopts polaroid, and its service band is 600-1200nm, and polarization extinction ratio is 10000: 1, and bore is 25mm; Described electric rotating machine (3) is for having the motor of angle index; Described power meter probe (5) adopts the power meter of silicon detector, and its service band is 400-1100nm, and the power test scope is 50nw-50mw; Described optical medium (6) is the K9 glass optics plain film that flatness is better than λ/2; Be installed on the electric rotating machine (3) by analyser plate (4), become the line polarisation behind the light process polarizer slice (2) of laser instrument (1) outgoing, utilization is installed in is carried out analyzing by analyser plate (4) to this line polarisation on the electric rotating machine (3) that has scale, by power meter probe (5) analyzing light being carried out laser energy detects, by determining the light transmission shaft or the absorption axes of analyser plate (4) after twice detection before and after same line polarisation is overturn, judge the light transmission shaft of polaroid at last through the different qualities of optical medium (6) reflex time by S, P line polarisation.

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