SU146073A1 - Instrument for monitoring optical optical material blanks in the region of 2.6-2.9 microns - Google Patents

Description

The present invention relates to devices for inspecting optical transmission blanks for integral transmission using a photocell.

The proposed device differs from the known ones in that it contains as a radiation detector a sulfur-lead photocell of a shut-off type with a long-wave sensitivity limit of about 3 microns, closed with a cut-off interference filter with a short-wave transparency limit of about 2.5 microns.

Such an embodiment of the device makes it possible to simplify monitoring, increase its speed and improve the accuracy of measurements.

The device allows to evaluate the quality of the test material, measuring the integral transmittance of this workpiece. A nichrome spiral, heated to a dark red color, was used as a radiation source. Its radiation by a concave mirror is collected on a lead-screw photocell of a shut-off type, closed by a cut-off multilayer interference filter. The long wavelength limit of sensitivity of the photocell lies on the part of the spectrum with a wavelength of about 3 microns, the short wavelength limit of the transparency of the filter lies on the portion of about 2.5 microns. The photocell sensitivity band with a filter has a maximum at 2.75 microns. The test blanks are applied directly to the filter covering the photocell, which allows them to be consistently monitored in both processed and unprocessed form. The photocurrent is measured with an optical pointer microammeter. Testing of the device layout shows that its readings are simply related to the average sample transmission in the 2.6-2.9 micron region.

№ 146073

The device can be used to control the fluoride casting blanks intended for devices of non-spectral type, when the exact position and depth of the absorption bands, and the average transmittance in the area of their location, is not essential.

Subject invention

A device for monitoring optical material blanks for integral transmittance in the region of 2.6-2.9 microns, containing a nichrome spiral as a radiation source, characterized in that, in order to increase the control accuracy, as well as accelerate and simplify it, it contains a radiation detector of a lead-free sulfite photocell of a shut-off type with a long wavelength limit of sensitivity of about 3 microns, closed by an interference filter of a cutting type with a short wavelength transparency limit of about 2.5 L1K.