SU1631369A1 - Device for calibration of spectrophotometers - Google Patents

Abstract

The invention relates to the field of spectral instrumentation and can be used for the calibration of spectrophotometers on a scale of wave numbers and a scale of transmission. The aim of the invention is to improve the accuracy of calibration on the scale of transmission. The device includes a Fabry-Peros standard sealed enclosure that is filled with gas. and an additional volume is communicated with the housing cavity, which is housed in an adjustable thermostat. 1 il.

Description

The invention relates to spectral instrumentation and can be used for the calibration and calibration of spectrophotometers and spectrometers on a scale of wave numbers (wavelengths) and a scale of transmission (optical density).

The purpose of the invention is to improve the accuracy of the pass scale calibration.

The drawing shows the proposed device for the calibration of spectrophotometers, a general view.

The device contains a sealed enclosure 1 (for example, a cylindrical form made of glass or quartz) filled with gas (for example, carbon monoxide, ammonia, nitrogen dioxide, etc.) under pressure. The ends of body 1 are parallel to each other with a high degree of accuracy (no worse than 0.2 interference fringes). The length of the housing 1 has a specified size, the value of which is measured with high accuracy. Mirrors 2 are vacuum-tightly attached to the ends of the case, the inner surfaces of which are made with a small deviation from the plane (no worse than 0.2 interference band) and may have reflective coatings.

An additional volume 3 is connected vacuum-tightly to the housing 1, which communicates with the cavity of the housing 1 and is intended to freeze gas from the housing 1 into the liquid or solid phase. For this, an additional volume 3 is placed in an adjustable thermostat 4, which is a Dewar vessel filled with liquid 5 and tightly closed with a stopper 6, through which heater 7 with current regulator 8 is brought out to heat liquid 5, as well as pipe 9 with valve 10 and funnel 11 to fill the coolant to equalize the temperature of the fluid 5. The adjustable thermostat 4 is equipped with a precision thermometer 12 The thermometer 13 is mounted on the housing 1 The thermostat 4 is equipped with

h

+

J

about with

00

ON

about

the pipe 14 with a valve 15 for draining the liquid and the stirrer 16.

The device works as follows.

The device is placed in a cuvette compartment on the path of the measuring beam of the spectrophotometer in such a way that the axis of the Fabry-Perot reference standard coincides with the axis of the measuring beam of the spectrophotometer and the radiation from the source of the spectrophotometer passes through the camera symmetrically with respect to the axis of the mirrors 2. For the calibration of the transmission spectrophotometer, they choose frame in the absorption spectrum of the gas, which is filled with the housing 1 of the Fabry-Perot etalon, wide structureless molecular absorption bands, or wider auto-ionization bands ansnye line atomic absorption spectra of gases, and as a reference for calibrating the scale of wavenumbers selected any single intensive line or absorption band with a known value v0 absorption maximum. The position of the reference is measured on the transmission scale and the wavenumber scale of the spectrophotometer.

Then, the spectrophotometer transmission scale is calibrated. For this, the change in the position of the maximum of the reference frame on the scale of passing the spectrophotometer from 0 to 90% is recorded with a decrease in the gas pressure in the housing of the standard. Fabry-Perot in the range of 760-U 4 mmHg The thermometer 13 measures the temperature of the housing 1 and the gas pressure is calculated based on the gas state equation. The gas pressure in the housing 1 is reduced by varying the temperature of the adjustable thermostat 4 in the range (+ 20) - (- 196) ° C. At the same time, the gas from the housing 1 gradually gets frozen and passes into the liquid or solid phase in the additional volume 3.

The temperature of the adjustable thermostat 4 is changed by adjusting the temperature of the heater 7 by regulating the current 8 and the inlet through pipe 9 with the valve 10 and the funnel 11

coolant into adjustable thermostat 4, drain its excess through pipe 14 with valve 15 and stirring with stirrer 16. At the same time, part of the gas in additional volume 3 passes into the liquid or solid phase, the temperature of which is measured with a thermometer 12.

The actual transmittance values Ta are calculated by the formula

 ,

0)

where 10, Iv0 is the intensity of the radiation incident and transmitted through the Fabry-Perot etalon;

TVO is the absorption coefficient of radiation by a single atom or molecule of a selected gas;

d is the body length of 1 Fabry-Perot standard;

N is the gas concentration determined by the measured value of the temperature of the housing 1.

After performing the calibration by transmission and transferring all the gas to the additional volume 3 in the liquid or solid phase, the scale of the wave numbers is calibrated. To do this, the interference pattern obtained using the proposed device is recorded by scanning the spectrum of the source of the spectrophotometer in the calibration range under study, and the wavelength is determined with respect to the known wave number of the frame V0.

Claims (1)

The invention The device for the calibration of spectrophotometers, including the Etalon Fabry-Perot with a sealed case, characterized in that, in order to improve the accuracy of graduation on the scale of transmission, the device is equipped with an adjustable thermostat, the case is filled with gas and equipped with a temperature meter and communicating with the cavity body extra volume placed in the thermostat.