SU595635A1 - Arrangement for measuring light pulse parameters - Google Patents

Description

one

The invention relates to the field of electrophysical measurements and is intended to measure and record various parameters of light emission pulses and a HIH short range of durations.

There are known devices that measure the ir radiation parameters and record the light emission parameters. They are a co6oi (high-speed nmiulc photometer consisting of a combo of two oscilloscopes with short scans for first scans, iiepiKptjiBaioiHiiMii in the sum of diaa.ch points; |. N-ji.iiDCicii or 1 (1 iicfK.k))

IkvuocTaTKCjM of these ycTpoiicTB 15: 111: ts insufficient bandwidth of measured signals.

The closest to the invention of the technical sector is a device for measuring the parameters of the central sprays, containing I1, ec photon not Mini k, installed on the recorder and the delayed unit of the measured signal.

The main disadvantage of this device is that it does not allow the registration of emulsions of the subnosecond danazone, i.e., pulses with a duration of less than 0.5 n, since the cable has a limited ω; k) n ) () And scan and introduces undo;, the shape of the recorded pulse.

2

The purpose of the invention is to expand the bandwidth of iep emic signals.

To accomplish this goal, a beam splitter installed in front of the delay unit is added to the network, an additional photon monitor is connected to the input photon coupling box, and the output is connected to the input of the scanner of the satellite recorder, this block is

The measured signal is made in the form of optical reflec- tions noBepxiiocTeii and is detected at 1, and the input of the photopriomic, whose electrical output is connected to the measuring input of the oscillographic regenerator.

Figure 1 shows a schematic diagram of the proposed device.

A device for measuring the parameters of light Toihrx imulses contains a splitter 1,, |) 1mo.1nn11 | in 15pe of the translucent nlastin; It has a delay unit of 2, and has chosen two reflective optical surfaces, a nairnmer, two reflective rectangular prisms 3, 1) working, their full internal reflection.

The flea delays 2 are optically connected with the signal f;) receiver 4. whose output is iodine to the input of the deflection system of the oscillographic recorder tube 5. The oscilloscope recorder 5 sweep loop input electrically

connected via an amplifier G with the input d; mtol: 1t1 .1; 1st (JK) T ()) i. 7

Part of the luminous flux, the parameters of which need to be measured, go from the other 11lt) to 1, the transmittance of which is onsdedethe (the drive | ci; eT030th dost, 11 bypass1: l1ogo to start the appar ;; tours, the R block zader; by xd 2, where, n P-terpsB multiple reflections from 3, goes to the terminal (converting light emitters) to electrical electrical equipment. amogo;) is performed on sgnstratora drugo11 part gyutoka snow, which after passing svetodelptely -th nlastppu 1 falls on bystrodsystschchopit to 1ol: n Tel'nykh fotonriemnpk 7N usnlntol b

F o r: y l a p 3 o b r e s t n n

A device for testing parameters ciictovyh pg.11) sleep, esdsr kan1se photonrgmnp ;. Chip registrar unit n unit () 1 about cnrna; ia, about tac h ya ic ic; ibio rasprepp strip1) 1 pr () n eanp nzmerzhmmyh sngnalov, in the first section of the beam splitter, ustopozininy before the delay unit, an additional 11 h ate beam, a beacon, a splitter, before the delay unit, an additional 11 h ate beam splitter; knocker. the input of which is connected; it is not connected with a photographic print shop, and the output is connected with the input of the |) tskn ospplografpchsky registratora. This unit of delay of the measured signal is made in the optical reflecting surfaces of the device at the input of the photon detector, electrically output () This unit is connected with the measuring input of the central recorder.