Modification of modulated plasma plumes for the quasi-phase-matching of high-order harmonics in different spectral ranges

Ganeev, R. A.; Boltaev, Ganjaboy S.; Sobirov, B R; Reyimbaev, S.; Sherniyozov, H.; Usmanov, T.; Suzuki, Masayuki; Yoneya, Shin; Kuroda, Hiroto

doi:10.1063/1.4905524

Cited by 5 publications

(2 citation statements)

References 12 publications

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“…This equation assumes that, by using longer jets, one can tune the enhanced group of harmonics towards the region of enhancement of a single harmonic in the case of indium plasma (H21 for 1310 nm pumps and H13 for 800 nm pumps). Such a tuning, but only up to the 45 nm region was reported in a few publications (for example 78 ). The maximally enhanced harmonics ( q QPM ) followed the rule when the product l × N e was maintained constant at a fixed electron density of the silver plasma.…”

Section: Discussionmentioning

confidence: 79%

High-order harmonics enhancement in laser-induced plasma

Ganeev

2023

Sci Rep

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The methods of enhancement of the strong high-order harmonics of femtosecond pulses in laser-induced plasma are demonstrated. It comprises the application of the four techniques allowing the enhancement of harmonics in different spectral ranges. Among them are the selection of targets for ablation to create the conditions for resonance enhancement of single harmonic, formation of the quasi-phase-matching of a spectrally tunable group of harmonics, application of the two-color pump of plasma, and the formation of nanoparticles-contained plasmas. The number of generated coherent XUV photons increased in the region of single resonantly enhanced harmonic (62 nm) and the shorter-wavelength region (30–50 nm). The above techniques of harmonics enhancement allowed a significant (up to 50 times) growth in a whole harmonic yield in the case of indium plasma. We discuss the reasons preventing the joint implementation of the four methods of harmonics enhancement in the same spectral region.

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Section: Discussionmentioning

confidence: 79%

High-order harmonics enhancement in laser-induced plasma

Ganeev

2023

Sci Rep

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“…Correspondingly, the application of fiber chirped pulse amplification systems, delivering higher pulse repetition rates (100 kHz and higher) compared with commonly used Ti: sapphire class lasers, may open new opportunities for HHG from LPPs. Different processes, such as the local field enhancement in quantum dots [13], resonance enhancement of single harmonics in metal plasmas [14], the realization of the quasi-phase matching conditions in periodically modulated plasma plumes [15,16], and nonlinear spectroscopy of ablated materials [17], could be more easily analyzed using the high pulse repetition coherent XUV sources. The generation of high harmonics from gas jets allowed achieving μW harmonics between 45 nm and 61 nm (H23-H17), at a repetition rate of 50 kHz [18].…”

Section: Experimental Arrangementsmentioning

confidence: 99%

Application of 150 kHz Laser for High-Order Harmonic Generation in Different Plasmas

et al. 2020

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Application of high pulse repetition rate lasers opens the way for increasing the average flux of the high-order harmonics generating in the ions- and nanoparticles-containing plasmas ablated on the surfaces of various metal targets. We demonstrate the harmonic generation of 37 fs, 150 kHz, 1030 nm, 0.5 mJ pulses in different plasmas. The formation of plasma plumes on the surfaces of carbon, titanium, boron, zinc, and manganese targets was performed during laser ablation, using 250 fs pulses from the same laser. The ablation of the mixed powder of boron nanoparticles and silver microparticles was used for generation of harmonics with high yield. Harmonics up to the fortieth orders from the carbon plasma were obtained. The estimated conversion efficiencies in laser-produced plasmas were ≤10−5. The photon flux for a single harmonic generating in carbon plasma was estimated to be 8 × 1013 photons/s.

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HHG in Extended Plasmas

Ganeev

2016

Frequency Conversion of Ultrashort Pulses in Extended Laser-Produced Plasmas

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Modification of modulated plasma plumes for the quasi-phase-matching of high-order harmonics in different spectral ranges

Cited by 5 publications

References 12 publications

High-order harmonics enhancement in laser-induced plasma

High-order harmonics enhancement in laser-induced plasma

Application of 150 kHz Laser for High-Order Harmonic Generation in Different Plasmas

HHG in Extended Plasmas

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