SU1072590A1 - Device for registering unsteady fields of refractive index gradient - Google Patents

Abstract

A device for solving nonstationary fields of the refractive index grader, containing a laser and a laser beam splitter arranged in series along the laser beam, connected to the control unit, a shaper lens, a receiving lens and a measuring device, with drawing patterns, and a drawing board, which will be used as a template and connected with a drawing board and a drawing board, a drawing device, a drawing mask, and a drawing board, which will be attached to a drawing board and a drawing board, which will be attached to a drawing board and a drawing board, which will be attached to a drawing board and a drawing board that will be attached to a drawing board that will be attached to a drawing board. that, in order to improve the accuracy and sensitivity of the registration in the presence of a stationary or quasistationary gradient, the refractive index, the nuclear beam splitter is made in the form of an Bragg ultrasonic modulator, installed so that the laser sweep plane passes through the straight line on which the photodiodes are located, and the control unit contains a set of oscillators of different frequencies with independent tuning, the number of which is equal to the number of pairs diagonal connections.

Description

The invention relates to the field of optical measurements, as well as refractometry, and can be applied in cases when a non-stationary process develops against the background of a refractive index having a quasistadionary field. A device for detecting a refractive index gradient is known, comprising a laser, a shaper lens and a measuring device for recording the inclination angles of a thin light beam passing through a non-uniform medium. The drawback of the device is that it uses one movement relative to the medium in order to remove the dependence of the angles of deflection of the beam from the coordinates of its entrance into the inhomogeneity. The closest to the technical essence of this invention is a device for recording non-stationary fields of the refractive index gradient containing a laser and a laser beam splitter arranged in series along the laser radiation, connected to a control unit, a shaping lens, a received lens and a measuring device equipped with a matrix photodiodes connected in pairs diagonally through a differential amplifier; An ultrasonic transducer is used as a laser beam splitter. Zaman-Nata actor. The disadvantages of this device are low accuracy and low sensitivity of registration of non-stationary gradient fields of the refractive index developing on. against the background of stationary and quasistationary fields, due to the impossibility of controlling each beam separately, since when changing any parameters of the modulator, changes are simultaneously made to the parameters of all the beams. In this case, prior to the measurement of the nonstationary process, due to the presence of a stationary or quasi-stationary gradient of the refractive index, the light beams will be shifted relative to the zero position, which leads to a decrease in the accuracy and sensitivity of the device. In addition, if the initial inhomogeneity is strong, the beam can be held outside the working area of the photodetector, which makes it impossible in principle to study an unsteady process. The aim of the invention is to improve the accuracy and sensitivity of the registration in the presence of a stationary or quasistationary refractive index gradient. This goal is achieved by the fact that in a device for recording non-stationary fields of the refractive index gradient containing a laser and a laser beam splitter arranged in series along the laser radiation, connected to a control unit, a shaping lens, a receiving lens and a measuring device equipped with a matrix of photodiodes connected in pairs diagonally through a differential amplifier, the laser beam expander is made in the form of an ultra-Bragg ultra-torsion modulator, installed so that the plane of Vertkov laser beam passes through the straight on which the photodiodes, and the control unit comprises a set of generators of different frequencies with an independent tuning, the number of which equals the number of pairs of diagonal joints. The invention is illustrated in the drawing. The drawing shows a diagram of the proposed device. The device contains a laser 1, a laser beam splitter 2, a control unit 3, a lens shaper 4 of radiation incident on the object under study 5, a receiving lens 6 and a measuring device 7. A laser Bragg ultrasonic modulator in which diffraction occurs is used as a laser beam splitter 2 Sveta. The diffraction angle is uniquely related to the frequency of the ultrasonic wave and changes as it changes. The frequency of the ultrasonic wave, and hence the diffraction angle, can be changed by changing the frequency of the voltage applied to. modulator If you apply to the modulator a set of several voltages of different frequencies, then at the output of the modulator there will be a set of beams, each of which will correspond to a voltage of a certain frequency. Thus, in the case of Bragg diffraction,

Claims (1)

DEVICE FOR REGISTRATION OF NON-STATIONARY REFRACTION GRADIENT FIELDS, containing a laser and a laser beam splitter arranged in series along the laser radiation, connected to the control unit, a shaper lens, a receiving lens and a measuring device equipped with a photographic matrix SU-, 1072590 diodes connected in pairs diagonally through a differential amplifier, characterized in that, in order to increase the accuracy and sensitivity of registration in the presence of a stationary or quasistationary gradient of the refractive index, the nuclear beam splitter is made in the form of an ultrasonic Bragg modulator mounted so that the scan plane The laser beam passes through a straight line on which the photodiodes are located, and the control unit contains a set of generators of various frequencies with independent adjustment, including which are equal to the number of pairwise diagonal connections. /