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System and method for measuring three-dimensional volume scattering function of microparticle in water

A measurement system and scattering function technology, applied in the field of optical measurement, can solve the problems that the measurement accuracy depends on the actual performance, the measurement period is long, and the particle scattering characteristics cannot be accurately characterized, so as to achieve good measurement stability, good uniqueness and high contrast Effect

Active Publication Date: 2014-03-05
HUAZHONG UNIV OF SCI & TECH
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Problems solved by technology

The existing method for measuring the scattering function of particles in water, a multi-spectral scattering function measuring instrument (MVSM) successfully developed in 2003 as an example, it adopts the characteristics of water body scattering and measurement difficulties in different scattering angle ranges A variety of schemes, characterized by erecting the sample cell part on a rotating platform, and working with the same detector rotating 360° around the platform, can realize the measurement of the upper body scattering function at any angle in the platform plane, but thus The synchronization of the measurement cannot be guaranteed, that is, simultaneous measurement of different angles, and the measurement cycle is too long to meet the requirements of rapid measurement in the actual environment
Another example is the multi-angle scattering optical instrument (MASCOT) developed by WETLabs. By setting detectors in multiple directions on the same circumference for detection, it can simultaneously measure the volume scattering function of multiple separated single-angle scattered lights, but this The measurement accuracy of the method depends on the actual performance of the selected detectors, and the difference in the detection effect of different detectors will inevitably affect the calculation results
At the same time, considering the influence of the particle shape on its scattering properties, only the measurement of the one-dimensional volume scattering function in the plane cannot accurately characterize the scattering properties of the particles. Therefore, it is necessary to propose a three-dimensional Method and Practical System for Volume Scattering Function Measurement

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  • System and method for measuring three-dimensional volume scattering function of microparticle in water

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Embodiment Construction

[0020] The present invention will be further described in detail below in conjunction with the drawings and specific embodiments.

[0021] The three-dimensional volume scattering function measurement system of the present invention mainly includes: incident light path, receiving light path, scattered light intensity signal acquisition and processing module. The incident light path includes a laser light source 1, a converging lens 2, a nonlinear attenuating sheet 3, and a parabolic spherical mirror 4. , Sample cell 5, receiving light path includes parabolic spherical mirror 4, telephoto lens group 6, 8, diaphragm 7, narrow band filter 9, scattered light intensity signal acquisition and processing module includes photodetector 10 and computer 11. The components of the incident light path are carried by the optical bench and adjusted so that the components are coaxial. The laser output laser 1 is shaped and adjusted in power to converge at the focal position of the parabolic spheric...

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Abstract

The invention discloses a system for measuring a three-dimensional volume scattering function of a microparticles in water. The system comprises a parabolic spherical reflector, a sample pool, a telescope group, a photoelectric detector and a computing processing unit, wherein the sample pool is arranged in a reflector cavity of the parabolic spherical reflector, the center position of the sample pool is located in a parabolic spherical focal point of the reflector cavity of the parabolic spherical reflector, incident light is converged at the reflector cavity focal point position, incident to a parabolic spherical surface after being subjected to particle scattering in the sample pool, transformed into parallel scattered light, received by the photoelectric detector after passing through the telescope group, and transmitted to the computing processing unit for processing, and thus, the three-dimensional volume scattering function of the microparticle can be obtained. The invention further discloses a method for measurement by utilizing the system. According to the invention, the problem of detection deviation generated when a plurality of detectors are used for detecting the volume scattering functions of different angles is avoided, the acquired image is good in uniqueness and high in contrast ratio and can be completely fixed in a work process, and the measuring stability is good and the measuring speed is high.

Description

Technical field [0001] The invention belongs to the field of optical measurement, and specifically relates to a measurement system for the three-dimensional scattering function of tiny particles in water and a measurement method using the system. Background technique [0002] The ocean is the space for human survival and development, and contains extremely rich natural resources. Researching and making good use of the ocean will become the inevitable choice for human survival and development. Phytoplankton with a size distribution of 100nm~1000μm belongs to suspended particles, which is an important part of the marine biological chain and seawater bodies. 50% of the earth’s oxygen is produced by phytoplankton photosynthesis. Its type, size distribution, etc. have an impact on water quality and ecological balance. important meaning. The volume scattering function (VSF) of suspended particles in water is the inherent optical property of water. It describes the directionality of li...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N15/00
Inventor 李微杨克成夏珉韩晨
Owner HUAZHONG UNIV OF SCI & TECH
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