SU125391A1 - Monochromator for ultrafast scanning of the spectrum - Google Patents

Monochromator for ultrafast scanning of the spectrum

Info

Publication number
SU125391A1
SU125391A1 SU625090A SU625090A SU125391A1 SU 125391 A1 SU125391 A1 SU 125391A1 SU 625090 A SU625090 A SU 625090A SU 625090 A SU625090 A SU 625090A SU 125391 A1 SU125391 A1 SU 125391A1
Authority
SU
USSR - Soviet Union
Prior art keywords
monochromator
spectrum
scanning
ultrafast scanning
ultrafast
Prior art date
Application number
SU625090A
Other languages
Russian (ru)
Inventor
О.Д. Дмитриевский
Original Assignee
О.Д. Дмитриевский
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by О.Д. Дмитриевский filed Critical О.Д. Дмитриевский
Priority to SU625090A priority Critical patent/SU125391A1/en
Application granted granted Critical
Publication of SU125391A1 publication Critical patent/SU125391A1/en

Links

Landscapes

  • Spectrometry And Color Measurement (AREA)

Description

Известные моцохромагоры д.л  сверхскоростного сканировани  спектра не позвол ют получать высокой скорости движени  спектра по выходной щелевой диафрагме.The known motsochromagors for superfast scanning of the spectrum do not allow to obtain a high speed of movement of the spectrum along the output slit diaphragm.

Дл  устранени  этого недостатка предлагаетс  применить в монэхроматоре систему из нескольких зеркал, вращающихс  или качающихс  в разные .стороны с одинаковой скоростью.In order to eliminate this drawback, it is proposed to use in a monochromator a system of several mirrors rotating or swinging in different directions with the same speed.

На чертел е изображена принципиальна  схема предлагаемого монохроматора .The drawing shows the schematic diagram of the proposed monochromator.

Монохроматор собираетс  по обычной автоколлимационной схеме и содерл ит входную / и выходную 2 щели, призму 3, зеркало 4 коллиматора и плоское зеркало 5. В качестве сканирующего устройства в нем приненена система из нескольких зеркал 6, 7 и 8, вращающихс  (или качающихс ) с одинаковыми скорост ми в разные стороны. Оси зеркал 6, 7 i 6 св заны между собой щестерн ми.The monochromator is assembled according to the usual autocollimation scheme and contains an input / output 2 slots, a prism 3, a mirror 4 of the collimator and a flat mirror 5. As a scanning device, it contains a system of several mirrors 6, 7 and 8 rotating (or swinging) with equal speeds in different directions. The axes of the mirrors 6, 7, and 6 are connected with each other by a comb.

При отражении лучей света от каждого вращающегос  зеркала происходит .приращение скорости на учетверенное число оборотов зеркала, так как луч отражаетс  от каждого зеркала дважды. В результате этою врем  регистрации спектра предлагаемы.м монохроматором уменьщаегс  в 2 (/С-1) раза, где /С-количество вращающихс  или качающихс  зеркал.When the rays of light from each rotating mirror are reflected, a speed increment of four times the number of revolutions of the mirror occurs as the beam is reflected from each mirror twice. As a result, the spectrum acquisition time offered by the monochromator is reduced by 2 (/ C-1) times, where / C is the number of rotating or swinging mirrors.

Предмет изобретени Subject invention

Монохроматор дл  сверхскоростного сканировани  спектра, отличающийс  тем, что, с целью увеличени  скорости движени  спектра по выходной щелевой диафрагме, применена система из нескольких зеркал , вращающихс  или качающихс  з разные стороны с одинаковой скоростью . , . . .., ,..,.-..A monochromator for ultrafast scanning of the spectrum, characterized in that, in order to increase the speed of movement of the spectrum along the output slit diaphragm, a system of several mirrors rotating or swinging on different sides with the same speed is used. , . ..,, .., .- ..

Л .ttiVA H- , L .ttiVA H-,

SU625090A 1959-04-13 1959-04-13 Monochromator for ultrafast scanning of the spectrum SU125391A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
SU625090A SU125391A1 (en) 1959-04-13 1959-04-13 Monochromator for ultrafast scanning of the spectrum

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
SU625090A SU125391A1 (en) 1959-04-13 1959-04-13 Monochromator for ultrafast scanning of the spectrum

Publications (1)

Publication Number Publication Date
SU125391A1 true SU125391A1 (en) 1959-11-30

Family

ID=48396749

Family Applications (1)

Application Number Title Priority Date Filing Date
SU625090A SU125391A1 (en) 1959-04-13 1959-04-13 Monochromator for ultrafast scanning of the spectrum

Country Status (1)

Country Link
SU (1) SU125391A1 (en)

Similar Documents

Publication Publication Date Title
SU125391A1 (en) Monochromator for ultrafast scanning of the spectrum
GB1201504A (en) Improvements in optical scanning devices in particular for rapid infra-red spectrography
GB1134027A (en) Temperature indicating device
GB1044016A (en) Optical system of variable focal length
SU149907A1 (en) Dispersing system
SU148120A1 (en) Optical spectrum analyzer
FR1543765A (en) Vision corrective optical instruments
GARDNER Photometric principles governing the vacuum optical bench(Photometric equation applied to cross section of large beam of collimated light produced by collimating system of vacuum optical bench)
GB1510160A (en) Spectrographs of the prism type
ES158500Y (en) KALEIDOSCOPE OF SEVERAL INDEPENDENT COMPARTMENTS.
FR1475736A (en) Astigmatism correcting device of a very large astronomy mirror caused by the deformation of the latter under the effect of its mass
MARTZ et al. An 8-14 micron infrared astronomical photometer to measure emission from extraterrestial objects
SU149906A1 (en) Device for measuring absolute mirror reflection coefficients
SU519644A1 (en) Optical spectrum analyzer
DIANOV-KLOKOV et al. Logarithmic photometer with compensation of noise caused by turbulent fluctuations of the light beam(Monochromatic atmospheric translucence measured, using logarithmic photometer with diode photomultiplier for remedying image displacement due to atmospheric fluctuations)
BOUCHAREINE High resolution instrumentation at focus of large telescopes(High resolution auxiliary optical equipment for use with large astronomical telescope)
IONNISIANI A telescope with a 6-metre mirror(Design theory for large optical telescope)
ASLANOV et al. Investigation of the main mirror of the two- meter telescope of the Shemakha Astrophysical Observatory of the Azerbaidzhan SSR(Shemakha observatory telescope main mirror spherical aberration, coma, astigmatism and light concentration, describing support system and adjustment and control mechanisms)
BUSCOMBE Radial velocity tables for 80 bright southern stars, some of which have constant velocities while others have variable velocities
FR2266150A1 (en) Spectrometer for Raman effect analysis - has three monochromators with optical gratings coupled to same axis
FR1325487A (en) Vari-focal optical system
Vogt The Orbital Period of RR Pictoris
FR1252556A (en) Optical instrument, especially binoculars
IATSKIV et al. Study of the flexure of the Wanshaff vertical circle by means of autocollimation(Wanshaff vertical circle flexure determination at Goloseyevo, using collimator tube, plane mirror and autocollimation ocular)
CHAVAEV et al. Optical location of the moon(Optical location of moon by ruby laser for estimating signal to noise ratio)