SU1045202A1 - Readjustable interferential polarization filter - Google Patents

Abstract

A REJECTED INTERFERENTIAL-POLARIZATION FILTER containing plates of a multiple thickness, mounted at Brewster's angle with the possibility of simultaneous rotation around the normal to the surfaces of the plates, the plates being made of crystalline quartz, the cut-off plane of which is parallel to the optical axis of the crystal, characterized in that In order to reduce the bandwidth, Iceland spar plates are additionally introduced into it, the cut-off plane of which with the optical axis of the crystal is 7-8.5, Rich Iceland spar plate mounted for synchronous rotation with plastinamikristallicheskogo quartz.

Description

The invention relates to interference polarization filters intended for selection and adjustment of the wavelength of laser radiation. An interference polarization filter for selecting and tuning the wavelength of laser radiation is known, consisting of a plate of crystalline quartz, a crystal cut parallel to the optical axis. Installed at the Brewster angle to the axis of the filter, can be rotated around the normal to the surface of the plate. This is a grooved spectrum j i in which the transmission maxima / s alternate with minima and their number and position in the spectrum depend on the thickness of the crystal plate. By rotating around the normal to the plate surface, the spectrum l is shifted. However, the selective properties of this filter are very low. Closest to the proposed rearrangement interference-polarization filter containing multiple-fold plates installed at Brewster's angle with the possibility of synchronous rotation around the normal to the surfaces of the plates, while the plates are made of crystalline quartz, the cut-off plane of which is parallel to the optical axis crystal. The band for passing such a filter is determined by the thickness of the thickest plate, and the dispersion region is determined by the thinnest 2. However, the known filter has a limited spectral selection, since the filter bandwidth cannot be less than 1-2 A, while for a number of applications in lasers, filters with a bandwidth of 0.1 A are required. The purpose of the invention is to reduce the width filter bandwidth The goal is achieved by the fact that the B tunable interference-polarization filter containing plates of a multiple thickness set at the Brewster angle with the possibility of simultaneous rotation around the normal to the surface of the plate , the plates are made of crystalline quartz, the cut-off plane of which is parallel to the optical axis of the crystal, additional plates of Iceland spar are added, the cut-off plane of which with the optical axis of the crystal is 7-8.5, and the plates of Iceland spar are installed with the possibility of synchronous rotation with plates of crystalline quartz. The drawing shows one of the embodiments of the proposed interference polarization filter. The filter contains plates 1-7 of crystalline quartz, cut parallel to the optical axis k.); 1 steel, and plates 8-13 of Iceland spar, cut so that the cut plane with the optical axis of the crystal is 7-8.5. The thickness of the plates is chosen so that the thickness ka: "l, ca of the subsequent plate is twice as large as the previous one, with the thickness of the first crystalline quartz crystal being 0.132 mm, and the first plate of Iceland spar - 1, ... O.-hm. All plates are installed at a Brewster angle to the filter axis with the possibility of synchronous rotation around the normal to the plate surfaces, the accuracy of which should be in the order of 2. Different sections of the quartz crystal plates of the Iceland spar are needed to equalize the spectral movement of the bandwidth of the quartz and spar cascades. The filter at a wavelength of 610 nm has a half-width of the passband of 0.034 nm, a dispersion of 279.01 nm and is tuned in the region of 540 700 nm. Other embodiments of the proposed IFP are possible, for example, containing plates 1, 3, 5, 7, 9, 11, 13 or 2, 4, b, 8, 10, 12, etc. The proposed filter works as follows. As a result of the interference of ordinary and extraordinary rays of Bt crystal plates, the filter transmission is a spectrum, the width of which is determined by the thickness of the thickest plate of Isandan spar, and the area of the dispersion is the thinnest plate of crystalline quartz. By synchronously rotating the crystal plates in the normals to their surfaces, the transmission band of the Ilter is shifted along the spectrum. The speed of the filter's three filter is determined by d .l.iE JQ ju ju 3Q (xiilV V-ju-a l) sititp-s-in2 (4-co5e U - -2., And b, (1 -y 1 -a 9 - Y ® 3 Q., p-.i -1 6 о jf 2; 11 9in (| -vb СО9 (j). Л - length of the WAVE} tioKHj- ordinary and extraordinary refractive indices; 9 - angle. the plane of incidence and the plane containing 10 the optical axis of the crystal and the normal to the surface of the plate; (J is the angle between the optical axis of the crystal and the normal to the surface of the plate; 15 If is the angle of incidence of light on the plates (Brewster angle), 5 1045202 with 1 ndex 1 refers to crystalline quartz, index 2 - to Iceland Thus, compared with the base object, the use of the proposed solution allows to reduce the passband of the IAP by two orders of magnitude, to increase the spectral brightness of lasers with wavelength tuning by ten times, which increases the scope of application of lasers with a tunable interference polarization filter. and eliminates the need to develop tunable lasers with other spectral selection devices with parameters close to those of the proposed device.

Claims (1)

TUNABLE INTERFERENCE-POLARIZING FILTER containing multiple thickness plates mounted at a Brewster angle with the possibility of synchronous rotation around the normal to the surface of the plates, the plates are made of crystalline quartz, the cut plane of which is parallel to the optical axis of the crystal, characterized in that, for the purpose of bandwidth reduction, it is further introduced Iceland spar plate, the slice plane with which optiches ~ _o Coy crystal axis is 7-8.5, and plates of Icelandic spar are mounted with the possibility of rotation synchronous with the plates of crystal quartz.