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Method for enhancing optical parametric amplifier output magnified signal light impulse and beam quality

A technology for amplifying signal and beam quality, which is applied in the field of lasers to achieve the effect of ensuring signal-to-noise ratio and beam quality

Inactive Publication Date: 2010-09-29
FUDAN UNIV
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Problems solved by technology

However, in these high-energy OPCPA systems, due to the large aperture of the OPA crystal and the use of birefringent phase matching, there is a spatial walk-off between the pump light, the signal light, and the idler light.
In addition, the pump light with megajoule pulse energy usually does not reach the diffraction limit (10-20 times the diffraction limit), and its own beam quality is relatively poor
The phase shift in the optical parametric amplification process will cause the non-ideal phase distribution of the pump light to be transferred to the signal beam, which will seriously affect the quality of the amplified signal beam
On the other hand, the study of physical experiments puts forward very high requirements on the pulse quality (signal-to-noise ratio), requiring a "clean" pulse front, but in the current high-power laser system, the problem of signal-to-noise ratio has not been well resolved good solution
But in the time domain, it is not possible to compensate the group velocity mismatch in the OPA crystal by simply adjusting the structure of the crystal itself (R.J.Gehr, R.W.Kimmel, and A.V.Smith, Simultaneous spatial and temporal walk-off compensation frequency-doubling femtosecond pulses inβ-BaB 2O4.Opt.Lett., 1998, 23: 1298-1300), so the phase control of the signal light pulse cannot be realized

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  • Method for enhancing optical parametric amplifier output magnified signal light impulse and beam quality
  • Method for enhancing optical parametric amplifier output magnified signal light impulse and beam quality
  • Method for enhancing optical parametric amplifier output magnified signal light impulse and beam quality

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Embodiment example

[0023] A femtosecond Ti:Sapphire laser regenerative amplifier was used as a pump source to generate pump pulses with a pulse width of 50 fs, a center wavelength of 800 nm, and a repetition rate of 1-kHz. Working in a TEM pumped with a semiconductor laser 00 mode, a continuous Nd:YVO4 laser with an average power of 0.5 W and a wavelength of 1064-nm was used as the seed source. Two 10 mm long pieces of MgO:LiNbO matched to type I 3 For OPA crystals. The pump light is divided into two beams (60% transmission and 40% reflection) by the beam splitter, and the two beams respectively pass through the telescope system to obtain the same pump light intensity (90GW / cm 2 ), adjust the orientation of the crystal so that the wavelength of the signal light is about 1040nm, so as to ensure that the signal light pulse and the idler light pulse have about the same group velocity, and adjust the spot so that the idler light and the pump light overlap in space.

[0024] In the space domain, ...

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Abstract

The invention pertains to the technical field of laser, in particular to a method for improving the quality of light pulse and light beam of amplified signals output from an optical parametric amplifier. In the process of optical parametric amplification (OPA) or optical parametric chirped pulse amplification (OPCPA), the method utilizes an OPA device to improve the quality of the light pulse andthe light beam of the amplified signals through controlling phase shifts of signal light in the pump light direction. The method avoids influences of spatial walk-off and group velocity mismatch, relaxes requirements on the quality of pump light, and improves the quality of the light pulse and the light beam of the amplified signals; thereby the method is suitable for a high-energy OPA device or a high-energy OPCPA device.

Description

technical field [0001] The invention belongs to the technical field of lasers, and in particular relates to a method for improving the quality of optical pulses and beams of amplified signals output by an optical parametric amplifier device. Background technique [0002] The high-intensity ultrashort pulses output by the high-energy laser device create extreme physical conditions, which can be used to study new phenomena in the field of strong field physics, mainly including: "fast ignition" inertial confinement nuclear fusion, high energy density physics, laboratory celestial bodies Physics, ultra-strong acceleration of charged particles, etc. These important applications not only require high energy laser pulses but also ensure good pulse quality. Chirped pulse amplification (OPA) or optical parametric chirped pulse amplification (OPCPA) is an important means to obtain ultra-intense and ultra-short laser pulses. Using a high-energy Nd-glass laser as the pump source, the ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02F1/35G02F1/39G02F1/355
Inventor 钱列加任红艳罗航袁鹏朱鹤元
Owner FUDAN UNIV
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