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Apparatus for measuring acceleration by double optical beams, optical fibers and light traps

A double-beam, acceleration technology, applied in the direction of measuring acceleration, measuring device, speed/acceleration/impact measurement, etc., can solve problems such as errors, affecting the shape of the robot arm, reducing test accuracy and service life, etc., to avoid deformation and improve use The effect of longevity

Inactive Publication Date: 2010-01-13
ZHEJIANG UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The main disadvantage of this type of test method is that the mechanical support method for the sensing element will introduce errors due to the support element, such as temperature will affect the shape of the mechanical arm, etc.
Moreover, the wear and corrosion of the mechanical support parts can easily reduce the test accuracy and service life

Method used

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  • Apparatus for measuring acceleration by double optical beams, optical fibers and light traps
  • Apparatus for measuring acceleration by double optical beams, optical fibers and light traps

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Embodiment Construction

[0015] Further illustrate the present invention below in conjunction with accompanying drawing.

[0016] refer to figure 1 , figure 2 , a device for measuring acceleration using a double-beam fiber optic trap, including a laser 1 fixed on a substrate, a light intensity modulator 2, two single-mode optical fibers 3, a glass capillary 4, a photoelectric image detector 5 and a processor 6, the laser 1 The emitted light is modulated by the light intensity modulator 2 into two beams of light with the same light intensity, and then input into two single-mode optical fibers 3 respectively. The diameter of the output end face of the mode fiber 3 matches the caliber of the glass capillary 4, so that the beams emitted from the end faces of the two single mode fibers 3 can be precisely aligned. The output end faces of the two single-mode optical fibers 3 are spaced apart, usually, the space is 100-800 microns. Place a spherical SiC particle 7 in the glass capillary 4, the radius of t...

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Abstract

The invention discloses a device which uses a dual-beam optical fiber light trap to measure acceleration. The device comprises an optical maser, a light intensity modulator, two single mode fibers, a capillary glass tube, a photonics image detector and a processor which are arranged on a substrate; wherein, light sent out from the optical maser is modulated into two beams of light with same intensity and then respectively input in the two single mode fibers; and the output ends of the two single mode fibers are respectively fixed at the two ends of the capillary glass tube; and the caliber of the capillary glass tube is matched with the output end of the single mode fiber; a ball-shaped SiC particle is arranged in the capillary glass tube. The device provided by the invention is fixed on the main body of a measured object, and when the main body of the measured object is in accelerated motion along the direction of optical axis, the particle is going to deviate from the original balance position. The photonics image detector measures the position of the particle, and a corresponding adjustment value can be worked out by the processor, and then the light intensity modulator changes the output light intensities of the two beams of light according to the measured position of the particle and the obtained adjustment value to let the particle return to the original balance position. According to the light intensity differences of the light intensity modular, the processor works out gained acceleration.

Description

technical field [0001] The invention relates to a device for measuring acceleration, in particular to a device for measuring acceleration by using a double-beam optical fiber trap. Background technique [0002] According to quantum theory, a light beam is a stream of photons moving at the speed of light that has both mass and momentum. When a photon is incident on the surface of the medium and undergoes refraction and reflection, the speed and direction of the photon change, resulting in a change in its momentum vector. From the law of conservation of momentum, it can be deduced that when a light beam enters a particle, the change in momentum of the photon is the change in momentum of the particle. Therefore, the effect of light beam on particles exists force, which is called optical radiation pressure. Studies have shown that the light radiation pressure includes the scattering force along the beam propagation direction and the gradient force always pointing to the strong...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01P15/00
Inventor 陈晶胡慧珠白剑舒晓武刘承
Owner ZHEJIANG UNIV
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