SU1043494A1 - Ultra-violet radiation detector - Google Patents

Abstract

A UV-DETECTOR, including a case with electrodes, between which is placed a photopolymer, which is connected to the bimetral pipid film as a photo-gauge and with an enhanced sensing circuit with background illumination in the visible region of the spectrum.

Description

Ievbreteniye refers to the reference measurement technique and can be used when measuring the intensity of weak ultraviolet rays (for example, in cosmic ray physics).

There are known ultraviolet radiation detectors that confine photoelectronic light impulse converters to apectric signals. In such detectors, the recording is recorded by comparing the number of noise pulses with the number of pulses that occur when the receiver is illuminated by the light flux being examined f | .

However, their ability to detect weak ultraviolet radiation is not. background light in the visible region of the spectrum (Yaranicheky.

The closest to the technical essence of the invention is an ultraviolet radiation detector, including a housing with electrodes, between which photopolymer 2} is placed.

The disadvantage of the famous detector. is the limited sensitivity of detecting weak ultrasound radiation (according to Yu quantum / cm s) against the background of illumination in the visible region of the spectrum i (intensity as low as 1O quang / cm s). ,

The purpose of the invention is to increase the sensitivity of measurements against the background of visible light. . ;

This goal is achieved by using a bimolecular lipid film as a photopolymer in an ultraviolet detector.

The drawing shows the Principle on an ultraviolet radiation detector circuit.

The ultraviolet radiation detector comprises a housing (cuvette) of 1 teflon / partition 2 with a diversion (diameter

on the order of 1 mm), an electroplating solution 3, a bimolecular lipid film 4, electrodes .5, an electrometric amplifier 6 (for example, type 5-7), a quartz window 7.) The detector works as follows.

A lipid film is pipetted into the hole in the teflon septum 2. 4, which spontaneously becomes thinner within 1–5 minutes to form a bimolecular layer. Bimolecular lipid films are prepared, for example, from soluble phosphatidylhophen and cholesterol in octane with a total concentration of 20 mg / ml (5: 1), respectively.

Through the quartz window 7, a flux of ultraviolet radiation of the order of intensity is passed. Registration of UV fluxes is carried out by comparing the electrical conductivity of the bioimolecular lipid film 4 with its backlight being weak. ultraviolet radiation with electrical conductivity of the same non-irradiated film.

The invention makes it possible to detect ultraviolet radiation with an intensity of the order of 10 quantum / cm-s against a background of light in the visible region of the spectrum with an intensity of 1 quantum-cm / s, as well as to reduce the time of registration of ultraviolet radiation without cooling the radiation receiver. The initial value of the electrical conductivity of the bimolecular hapid film increases tenfold.

Claims (1)

The invention allows the possibility of detecting ultraviolet radiation with an intensity of the order of 10 ³ quantum / cm "s against the background of light illumination in the visible region of the spectrum with an intensity of 1 ° ^{, 6} quantum / cm-s, as well as reducing the time of registration of ultraviolet radiation without cooling the radiation receiver. The initial value of the electrical conductivity of a bimolecular hashid film increases tenfold.