SU493656A1 - Monochromator - Google Patents

Description

(54) MONOCHROMATOR

The drawing shows a schematic diagram of the proposed monochromator, where 1 and 2 are diffraction gratings; 3 is a block containing the entrance and exit slits and optical elements defining the light parameters of the system; 4 — a rotary table with which the lever 5 is connected; 6 - mechanism for changing the lattices 7 — cam having one working a and one auxiliary p profile sections. In addition, the monochromator contains a reading device 8 with several ranges, each of which corresponds to the spectral range of the diffraction grating. To match the position of the diffraction grating and the corresponding optical scale, the monochromator is equipped with synchronization elements (trigger devices), schematically depicted in block 9.

In the initial position, the luminous flux Fp, formed by the optical elements of the monochromator, falls on the diffraction grating 1 with the number NI lines per 1 mm installed on the turntable 4 at such an angle to the flux Fp that a diffracted flow Fd with the wave number vi passes to the exit slit . When the cam 7 rotates, the lever 5 slides along the working area and the cam profile rotates the diffraction grating 1 around the axis of the turntable 4, due to which the spectrum is scanned relative to the exit slit. The cam rotation is synchronously associated with the movement of the corresponding element of the reading device 8. At the moment when a monochromatic beam of light falls on the exit slit with the wave number vi, the lever moves from the working section and the cam profile to the auxiliary section p. At the same time, the synchronization elements (trigger elements) 9 issue a command to turn on the mechanism for changing the diffraction gratings and to switch the ranges of the reading device. Both switchings must be completed by the time when, turning on

the angle j3 corresponding to the auxiliary section, the cam will again take up its initial position.

At the same time, the light flux Fd with the wave number V2, diffracted by the grating 2 with NZ grooves per 1 mm, falls on the exit slit, since the ratio of the wave numbers vj and V2 is chosen equal to the ratio NI and NZ, the scanning law of the spectral ranges Avi and A-va the same one that allows for scanning in both ranges with a single cam. For each specific case, the number of diffraction gratings can be any subject to the condition

 .

The proposed monochromator allows a closed cyclical operation with one cam with one working section and one profile and one auxiliary section p, which leads to an increase in the accuracy of the wave numbers.

Subject invention

A monochromator containing several diffraction gratings, a reading device with several working ranges, mechanisms for changing gratings and switching ranges, and a mechanism for rotating gratings with a cam made with one working and one auxiliary profile section, characterized in that, in order to improve the accuracy of reading wave numbers and simplified design, diffraction gratings are made with the number of lines per millimeter proportional to the intervals of the corresponding spectral ranges in the wave numbers, and monochrome The accelerator is equipped with starting devices for synchronizing the period of operation of the lattice changing mechanisms and switching the ranges of the reading device with the period of interaction of the lever with the auxiliary section of the cam profile.