SU1133509A1 - Device for investigating optical non-uniformities of sea water - Google Patents

Abstract

A device for the study of optical inhomogeneities of sea water, containing successively installed an illuminator along the optical axis, an optical system for visualizing the refractive index fluctuations, a protective glass, a mirror and a photodetector, which is associated with the visualization system of the fluctuations of the refractive index and an application. , characterized in that, in order to increase its sensitivity, the dimming system is designed as a sequence but located aperture, lens, filter with a transparency window in the wavelength range of 2-14 microns and a radiation receiver with maximum sensitivity in the wavelength range of 8-10 microns, and the protective glass is made of a material that is transparent in visible and infra (/) red wavelengths, and the outputs of the photodetector and the radiation receiver are connected to the output of the computing device.

Description

The invention relates to an optical oceanographic instrumentation, namely to a probing apparatus used to measure parameters of seawater, and can be used to diagnose the nature and origin of the ocean microstructure of seawater when conducting oceanographic research. A device for investigating optical inhomogeneities, including sea water, consisting of an optical imaging system and a photodetector connected to a recording device is known. The disadvantage of this device is the impossibility of studying the connection of optical inhomogeneities with temperature, which is necessary for carrying out a specific analysis of parameters. studied microstructure. The closest to the invention to the technical essence is a device for studying optical inhomogeneities of seawater containing a illuminator successively installed along the optical axis, an optical system for visualizing refractive index reflections, protective glass, a mirror and a photodetector optically connected to an indicator of visualization of fluctuations laziness, as well as the light registration system at an angle to the optical axis, which contains a lens diaphragm. Moreover, a photodetector plates, a second photodetector and a light filter are installed in front of the lens. In this case, the photoreceivers are connected to analog-digital converters. One of the light filters is filled with a transparency window in the region of the spectral line of the Stokes scattering, and the other in the region of the anti Stoker scattering 2j. A disadvantage of the known device is the impossibility of examining thin thermohaline structures, since such structures are characterized by temperature differences of the order of hundredths of a degree, and this device allows estimating the contribution of temperatures to pulsations of the refractive index with an error of only one Grace DUs. The purpose of the invention is to increase the sensitivity to a level that allows the measurement of the high-frequency temperature disturbances of the visualized microstructure. The goal is achieved by the fact that in a device for studying optical inhomogeneities of seawater, containing successively installed along the optical axis of the illuminator, an optical system for visualizing fluctuations of the refractive index, protective glass, mirror and photodetector, optically connected to the system of visualization of refractive index fluctuations, as well as The light-registering system located at an angle to the optical axis, the latter is complete in the form of a successively located aperture, lens, filter with a transparency window in the wavelength range of 214 microns and a radiation receiver having a maximum sensitivity in the wavelength range of 8-10 microns, and the protective glass is made of metal transparent in the visible and infrared region x wavelengths and the photodetector outputs radiation is connected to the input of the computing device. The drawing shows a diagram of the proposed device. The device contains an illuminator 1, an optical fluctuation / refractive index visualization system 2, a protective glass 3, a mirror 4, a photodetector-5, a light fixture system containing a diagram 6, a lens 7, a light filter 8, a radiation receiver 9 and a computing device 10. Two optical channels are formed installed in one rigid housing 11 in such a way as to ensure the possibility of registering a fluctuating refractive index inside the water volume (first channel) through the protective glass and fluctuating the temperature on the surface of the investigated volume adjacent to the protective window (second channel). The design and principle of operation of the first optical channel are similar to the corresponding channel in a known device. As an optical visualization system for the fluctuations of the refractive index, one can use both shadow and refractometric systems. In the second optical channel, a new measuring principle is used.

Claims (1)

DEVICE FOR STUDYING OPTICAL INHOMOGENEITY OF SEA WATER, containing a illuminator sequentially mounted along the optical axis, an optical system for visualizing fluctuations in the refractive index of its sensitivity, a light-recording system made in the form of a diaphragm, a lens, a light filter with a transparency window in the wavelength region of 2-14 μm and a radiation receiver having a maximum sensitivity in the wavelength region of 8-10 μm, the protective glass being made of material, rozrachnogo in the visible and infrared wavelengths, and the outputs of the photodetector and the radiation receiver are connected to the output of the computing device. SU „„ 1133509 S 1 113.3509 1