A. A. Kochetkov scite author profile

Two-stage compression of laser pulses with a power of 250 TW is experimentally realised by broadening their spectrum during self-phase modulation in fused silica and subsequent dispersion compensation upon reflection from chirping mirrors. A five-fold decrease in the duration is demonstrated, from 75 to 15 fs, with a B-integral value of about 5 at each stage. It is possible to avoid small-scale self-focusing due to self-filtering of the laser beam during free propagation in vacuum. With optimal parameters of the dispersive mirror, the pulse can be compressed to a duration of less than 5 fs.

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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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Use of KDP crystal as a Kerr nonlinear medium for compressing PW laser pulses down to 10 fs

Shaykin

Гинзбург

Yakovlev

et al. 2021

High Pow Laser Sci Eng

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The input pulse of the laser PEARL with energy of 18 J and pulse duration of about 60 fs was compressed to 10 fs after passage through a 4-mm thick KDP crystal and reflection at two chirped mirrors with sum dispersion −200 fs 2 . The experiments were performed for the В-integral values from 5 to 19 without visible damages of the optical elements, which indicates that small-scale self-focusing is not a significant issue. It was shown that, by virtue of the low dispersion of the group velocity, the KDP crystal has some advantages over silica: a larger pulse compression coefficient, especially at a small value of the В-integral (B=5…9), lower absolute values of chirped mirror dispersion, and also a possibility to control the magnitude of nonlinearity and dispersion by changing crystal orientation.

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Compression after compressor: threefold shortening of 200-TW laser pulses

Гинзбург¹,

Yakovlev²,

Zuev³

et al. 2019

Quantum Electron.

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A. A. Kochetkov

Fivefold compression of 250-TW laser pulses

Two-stage nonlinear compression of high-power femtosecond laser pulses

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

Use of KDP crystal as a Kerr nonlinear medium for compressing PW laser pulses down to 10 fs

Compression after compressor: threefold shortening of 200-TW laser pulses

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