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Optical gyroscope with waveguide construction implemented through organic polymer material and method for preparing same

A polymer material and optical gyroscope technology, applied in the field of optical gyroscope, can solve the problems of large device size and unsuitable for mass production of plane process lines, and achieve the effects of reducing coupling loss, increasing simplicity and reliability, and improving performance

Active Publication Date: 2007-12-12
SOUTHEAST UNIV
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Problems solved by technology

[0005] Technical problem: the purpose of the present invention is to propose a waveguide structure optical gyroscope realized by organic polymer material and its preparation method, to solve the problem existing in the prior art that the optical gyroscope can only be made by using an optical fiber ring wound by a traditional optical fiber, thereby The problem is that the device is large in size and not suitable for mass production of planar process lines, that is, the optical waveguide of organic polymer material is used to replace the traditional optical fiber ring to make an optical gyroscope with a waveguide structure

Method used

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  • Optical gyroscope with waveguide construction implemented through organic polymer material and method for preparing same

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Embodiment Construction

[0014] The following is a specific implementation manner for implementing an optical gyroscope using an organic polymer material waveguide structure.

[0015] The working principle of the interference and resonant optical gyroscopes is based on the Sagnac effect, which makes the light beam propagate in the spiral or single ring structure in the opposite direction in the ring waveguide.

[0016] The waveguide structure optical gyroscope realized by the organic polymer material of the present invention uses organic polymer materials to replace the traditional optical fiber to make the waveguide structure optical gyroscope. The waveguide structure optical gyroscope includes the interference type and the resonance type optical waveguide structure optical gyroscope; the interference type light The waveguide structure optical gyroscope is composed of a multi-layer or single-layer multi-turn spiral optical waveguide ring, and the resonant optical waveguide structure optical gyroscope is ...

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Abstract

It is wave-guide structure optical gyro and its process method realized with organic polymer materials and substitutes the traditional wave-guide fiber with the organic polymer materials to manufacture the wave-guide structure optics peg-top, which comprises intervention, and resonance wave-guide structure optics gyro. Its process steps are the following: a to coat the organic polymer materials solvent on the underlay through the rotation cover method and to make single or multiple layers organic polymer thin film; b to make mask plate with metal materials according to the pre-designed ring wave-guide needed; c to make the ring wave-guide by laser etching method or ultra-violet bleaching method to form the wave-guide structure gyro.

Description

Technical field [0001] The present invention provides a realization scheme for an optical gyroscope with a waveguide structure, and particularly relates to an optical gyroscope with an optical waveguide structure realized by organic polymer materials. Background technique [0002] The optical gyroscope is a new type of photoelectric gyroscope based on the Sagnac effect. The Sagnac effect is a common related effect of light propagating in a closed-loop optical path rotating relative to inertial space, that is, the light beam enters the system and splits into two light waves propagating in opposite directions. After passing through the same optical path and propagating in the opposite direction, it returns to the beam splitting point in phase. If there is a rotational angular velocity relative to the inertial space around an axis perpendicular to the plane where the optical path is located, the optical path traveled by the light beams traveling in the forward and reverse directions...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01C19/64H01P11/00G02B6/10
Inventor 张彤崔一平庞叔鸣凌云
Owner SOUTHEAST UNIV
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