SU1647044A1 - Method for preparation of amplitude filters - Google Patents

Abstract

The invention relates to electronic technology and allows the spectral range of transmission of amplitude filters to be expanded in the near infrared region of the spectrum and reduces the thickness of the filter by increasing the absorption coefficient at the edges in the visible region of the spectrum. The method involves adding an alkaline earth metal fluoride, lithium fluoride, potassium or sodium fluoride in an amount of 0.01-0.5%, growing a single crystal, making filter plates from it and additively coloring a layer of a given filter thickness by heat treatment in alkaline earth metal vapor in a sealed volume . Amplitude filters were obtained from SrF2: Na single crystals with a large absorption coefficient at the edges in the visible and near-IR spectral regions (up to 20 cm), as well as with an extended spectral range in the infrared region up to 2-3 microns. 3 il.

Description

The invention relates to optical instrumentation and can be applied in spectroscopy, holography, optical information processing devices to form a given spatial distribution of intensity over the cross section of the light beam, as well as to eliminate spatial inhomogeneities in it.

The aim of the invention is to expand the spectral bandwidth of the filter to the near infrared region of the spectrum and reduce the thickness of the amplitude filter by increasing the absorption coefficient in the visible region of the spectrum at the edges of the filter.

Figure 1 shows the absorption spectrum of a colored SrF2: Na crystal in the visible and near infrared region, measured relative to unpainted same thickness; Figure 2 shows the devices for carrying out the process; FIG. 3 shows the transmission profile of an amplitude filter of a SrP2: Na single crystal.

The device for the process of processing contains an unpainted sample of 1 alkaline earth metal fluoride doped with lithium, potassium or sodium, ampoule 2 with an unpainted sample, 3 is alkaline earth metal 3, where AB, B C, CD is the designation of the crystal sides, g is the distance in the crystal sample along the gradient of transmission.

PRI me R 1. Make an amplitude filter of strontium fluoride crystal SrF2; Na (sodium fluoride concentration (NaF) in the charge when growing a crystal is 0.3 mol%) 1 mm thick with the transmission profile shown in FIG. 3 (l / lo, as a function of g, where r is the distance in the sample along transmission gradient), the wavelength I, at which the profile was measured, I is 0.7 μm. The crystal is stained at 740 ° C, with an alkaline earth metal vapor pressure of 0.15 mm Hg. within 60 min. The thickness of the colored layer is 0.5 mm from the edge, and the absorption coefficient at wavelength A is 1.06 µm K 15.

PRI mme R 2. Make amplitude filter crystal strontium fluoride (SrFa: Na) with a thickness of 1 mm. When grown, sodium fluoride is introduced into the mixture & the amount of 0.3 mol%. The crystal is stained at 740-750 ° C, with a metal vapor pressure of 0.2 mm Hg. within 60 mic In this case, the absorption coefficient in the colored layer at a wavelength of 06 µm K 20.

A similar effect on spectral dependencies is obtained on samples doped with LI and K,

Experiments conducted at alkali metal concentrations in the mixture beyond these limits showed no positive effect.

Thus, the proposed method, unlike the known one for which the absorption coefficient at a wavelength of 1.06 µm in the colored part is less than 0.5, allows obtaining amplitude filters with large absorption coefficients at the edges in the visible and near IR spectral regions (up to ), and also to expand the spectral range in the infrared region up to Z 2-3 microns.

Claims (1)

The method of obtaining amplitude filters, including growing alkaline earth metal fluoride crystals from a melt with the addition of dopant and subsequent additive staining of a crystal layer of a given filter thickness by heat treatment in alkaline earth metal vapor, characterized in that, in order to expand the spectral range of transmission to the near infrared and reduce the thickness of the filter by increasing the absorption coefficient in the visible region of the spectrum at the edges of the filter, in as a dopant, alkali metal fluoride is used in an amount of 0.01-0.5% and the treatment is carried out in an airtight volume. No. number -one 600 Kpogl, SM 7 BY 100 80 60 W 20 800 Phage. I 1000 A, IM Along the side of the LV Along the side of the sun Fi.Z Fi, g.2 J about g, tm