Device for measuring micro-impulse by linear frequency modulation double-beam laser heterodyne method and torsion pendulum method and measuring method of the device
A technology of linear frequency modulation and laser heterodyning, which is applied to measuring devices, force/torque/power measuring instruments, instruments, etc., and can solve problems such as low measurement accuracy
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specific Embodiment approach 1
[0055] Specific Embodiment 1: Refer to Fig. 1 to illustrate this embodiment. The device for measuring micro-impulse using chirped double-beam laser heterodyne method and torsion method described in this embodiment includes a pulsed laser 1, a working medium target 2, and a standard beam. 3. No. 2 plane mirror 4, chirp laser 5, No. 1 plane mirror 6, plane standard mirror 7, converging lens 8, photodetector 9, signal processing system 10 and vacuum chamber 11;
[0056] The pulse laser 1, working medium target 2, standard beam 3, No. 2 plane mirror 4, chirp laser 5, No. 1 plane mirror 6, plane standard mirror 7 and converging lens 8 are all placed in a vacuum chamber,
[0057] A working fluid target 2 is fixed on the plane at one end of the beam of the standard beam 3, and a No. 2 plane reflector 4 is pasted on the opposite position of the other side plane of the standard beam 3 opposite to the working fluid target 2; 3 In the horizontal state, the optical axis of the laser light...
specific Embodiment approach 2
[0061] Embodiment 2: The difference between this embodiment and the device for measuring micro-impulse using chirped double-beam laser heterodyne method and torsion method described in Embodiment 1 is that the signal processing system 10 includes a filter 10-1 , preamplifier 10-2, A / D converter 10-3 and DSP10-4, the signal output end of described filter 10-1 is connected with the amplified signal input end of preamplifier 10-2, preamplifier The amplified signal output end of 10-2 is connected with the analog signal input end of A / D converter 10-3, and the digital signal output end of A / D converter 10-3 is connected with the data signal input end of DSP10-4.
specific Embodiment approach 3
[0062] Specific embodiment three: This embodiment is based on the device for measuring micro-impulse by using chirped double-beam laser heterodyne method and torsion method described in specific embodiment one or two to realize the measurement method of micro-impulse. The specific process of this method is as follows:
[0063] Firstly, the pulsed laser 1, the chirp laser 5, the photodetector 9 and the signal processing system 10 are put into operation, and the swing angle θ′ of the standard beam 3 is obtained by measuring,
[0064] Second, according to
[0065] I ′ = 2 Jω D · θ ′ 4 πJ DT ′ · θ ′ (Formula 1),
[0066] Calculate and obtain the micro-pulse I' generated by the action of ...
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