SU1101784A1 - Ultrashort light pulse duration meter - Google Patents

Abstract

DURABILITY MEASURING OF ULTRA-SHORT PULSES OF LIGHT, contents optically matched source of measured light pulse, optical delay and recording device, distinguished by the fact that, in order to expand the time and spectral ranges with increasing sensitivity, the optical delay is in the form of a train, a thin wedge or Frenel biprism, and the recording device - in the form of a photographic recorder. (L 1 h, X ac

Description

The invention relates to physical optics and measurement techniques and is intended to measure the duration of light pulses of a duration less than sec. A device for measuring the duration of single light pulses is known, comprising a circuit of the circulation of light pulses light intensity amplifier, light pulse counter, beamer, optical delay, two-way This device is And 13. The drawbacks of the device are the narrow spectral range and low sensitivity. The closest to the invention to the technical essence is a measuring instrument for the duration of pulses containing an optically matched source of the measured light pulse, an optical delay line and a recording device P2. The disadvantages of the known device are low sensitivity and the impossibility of measuring ultrashort pulses. The purpose of the invention is to expand the temporal and spectral ranges with increasing sensitivity. In order to achieve the goal set in an ultrashort light pulse duration meter containing an optically matched source of the measured light pulse, an optical delay line and a register device, the optical delay line is made in the form of an echlon, a thin wedge or a bijvre1 and Fresnel, and the registering device is in the form photo recorder. FIG. 1-4 shows the flow diagrams of the meter. The device consists (of FIG. 1) of echelon 1, optical analyzer 2 and photographic recorder 3. The source of the measured light pulse is not shown. The device also contains (Fig. Frenel biprism 4. The meter of the duration of the ultrasonic light pulses works as follows. 1 The light pulse is passed through a glass or quartz echelon 1, creating a time delay, and simultaneously register the inte- gration structure on the photoregulator 3 to the time delay value The value of the time delay is determined by the corresponding zero coagulation of the interference structure, and the pulse duration is judged by it. Figure 2 shows a diagram using glass of the light (quartz) echelon 4 and photo recorder 3. The light pulse is directed to the side face of the ABC of the echelon 1 and the interference structure formed by convergent parts of the pulse that are delayed past the echelon due to diffraction on the side of the ABW is recorded by the fuchor recorder 3. the echelon delays the beam of light by the value of n - 1Г where n is the refractive index of the optical material of the echelon, is the magnitude of the step, c is the speed of light. An echelon made, for example, of optical glass C, 51, having 1 mm, will trap light by 1.7 ps relative to the light propagating in the air. This echelon, which has 5 steps, can measure the pulse duration shorter than 8.5 ps with a time resolution of 1.7 ps. For measuring pulses shorter than 10 s instead of a train, it is advisable to use elements made in the form of a wedge. The change in the time delay in this case occurs smoothly and the limiting time resolution in this case is equal to the period of light oscillation with a given wavelength, i.e. 5-10 s FIG. 4 shows the scheme using the Fresnel biprism 4 and the photographic recorder 3. The light pulse is passed through the Fresnel biprism 4, and the inerferential structure is recorded at the place of the complete Intersection of the pulses (the surface of the HO). The dash-dotted lines in the figure indicate the anterior and posterior wavefronts of the pulse at different points in time. The pulse duration is given by the formula G-i, where c is the speed of light, RP is the length of the interference pattern d is the angle of the directions of propagation of wave fronts (dashed arrows after passing the Fresnel waveform. Using the meter will increase the temporal resolution, expand the spectral range of the measured pulses on the whole region from near UV to near infrared light, greatly simplify the procedure for measuring the pulse duration.

Claims (1)

DURATION METER OF ULTRA SHORT PULSE OF LIGHT, containing an optically matched source of the measured light pulse, an optical delay and a recording device, distinguished by the fact that, in order to extend the time and spectral ranges with increasing sensitivity, the optical delay is made in the form of a train, thin 'wedge or Fresnel biprism, and the recording device - in the form of a photographic recorder. ABOUT I. eleven