I. V. Yakovlev scite author profile

560 TW peak power has been achieved experimentally using a Cr:forsterite master oscillator at 1250 nm, a stretcher, three optical parametrical amplifiers based on KD*P crystals providing 38 J energy in the chirped pulse at 910 nm central wavelength, and a vacuum compressor providing 43 fs pulse duration. To our knowledge, it is a world-record OPCPA system and one of the five most powerful laser systems currently available.

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Fivefold compression of 250-TW laser pulses

Гинзбург

Yakovlev

Zuev

et al. 2020

Phys. Rev. A

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200 TW 45 fs laser based on optical parametric chirped pulse amplification

Lozhkarev¹,

Freǐdman²,

Гинзбург³

et al. 2006

Opt. Express

107

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200 TW peak power has been achieved experimentally using a Cr:forsterite master oscillator at 1250 nm, a stretcher, three optical parametrical amplifiers based on KD*P (DKDP) crystals providing 14.5 J energy in the chirped pulse at 910 nm central wavelength, and a vacuum compressor. The final parametrical amplifier and the compressor are described in detail. Scaling of such architecture to multipetawatt power is discussed.

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Compact 0.56 Petawatt Laser System Based on OPCPA

Lozhkarev

Freǐdman

Гинзбург

et al. 2007

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Second-Harmonic Generation of Super Powerful Femtosecond Pulses Under Strong Influence of Cubic Nonlinearity

Mironov

Lozhkarev

Гинзбург

et al. 2012

IEEE J. Select. Topics Quantum Electron.

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External cavity tunable diode laser NH3 spectra in the 1.5 μm region

Liu

Yakovlev

et al. 2004

Infrared Physics & Technology

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Stretchers and compressors for ultra-high power laser systems

Yakovlev¹

2014

Quantum Electron.

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Single-shot laser pulse reconstruction based on self-phase modulated spectra measurements

Anashkina

Гинзбург

Kochetkov

et al. 2016

Sci Rep

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We report a method for ultrashort pulse reconstruction based only on the pulse spectrum and two self-phase modulated (SPM) spectra measured after pulse propagation through thin media with a Kerr nonlinearity. The advantage of this method is that it is a simple and very effective tool for characterization of complex signals. We have developed a new retrieval algorithm that was verified by reconstructing numerically generated fields, such as a complex electric field of double pulses and few-cycle pulses with noises, pedestals and dips down to zero spectral intensity, which is challenging for commonly used techniques. We have also demonstrated a single-shot implementation of the technique for the reconstruction of experimentally obtained pulses. This method can be used for high power laser systems operating in a single-shot mode in the optical, near- and mid-IR spectral ranges. The method is robust, low cost, stable to noise, does not require a priori information, and has no ambiguity related to time direction.

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I. V. Yakovlev

Compact 0.56 Petawatt laser system based on optical parametric chirped pulse amplification in KD*P crystals

Fivefold compression of 250-TW laser pulses

200 TW 45 fs laser based on optical parametric chirped pulse amplification

Compact 0.56 Petawatt Laser System Based on OPCPA

Second-Harmonic Generation of Super Powerful Femtosecond Pulses Under Strong Influence of Cubic Nonlinearity

External cavity tunable diode laser NH3 spectra in the 1.5 μm region

Stretchers and compressors for ultra-high power laser systems

Single-shot laser pulse reconstruction based on self-phase modulated spectra measurements

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