Nonlinear Scattering of 248 nm Wavelength Light in High-Pressure SF[sub.6] and CH[sub.4] Gases for the Temporal Compression of a 20 ns KrF Laser Pulse

The nonlinear compression of narrowband (Δν ≈ 0.2 cm[sup.−1]) 20 ns KrF laser pulses in SF[sub.6] at 10 atm and in CH[sub.4] at 50 atm pressure was studied. Both SBS and SRS optically phase-conjugated backward-reflected radiation was registered with an energy reflectivity of 10–14% in SF[sub.6] and...

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Veröffentlicht in:	Photonics 2023-12, Vol.11 (1)
Hauptverfasser:	Zvorykin, Vladimir D, Metreveli, Gocha E, Smetanin, Igor’ V, Shutov, Alexey V, Ustinovskii, Nikolay N, Veliev, Polad V
Format:	Artikel
Sprache:	eng
Schlagworte:	Laser fusion Laser-plasma interactions Pellet fusion
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container_title	Photonics
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creator	Zvorykin, Vladimir D Metreveli, Gocha E Smetanin, Igor’ V Shutov, Alexey V Ustinovskii, Nikolay N Veliev, Polad V
description	The nonlinear compression of narrowband (Δν ≈ 0.2 cm[sup.−1]) 20 ns KrF laser pulses in SF[sub.6] at 10 atm and in CH[sub.4] at 50 atm pressure was studied. Both SBS and SRS optically phase-conjugated backward-reflected radiation was registered with an energy reflectivity of 10–14% in SF[sub.6] and CH[sub.4]. In SF[sub.6], the SBS pulses gradually shortened from 10 ns to 2–3 ns with a decrease in pumping to the SBS threshold of ~10 mJ, while the SRS pulse had the shortest length of 30–60 ps for the maximal pumping of 120 mJ and broadened near the SRS threshold of ~30 mJ. For the SRS pulse energy, the ~2 mJ peak power 5 × 10[sup.7] W was tenfold higher than the pump power. The theoretical model predicted a soliton-like SRS pulse compression to a temporal length of the order of the vibrational relaxation time. There was no pulse compression of backward SBS and SRS radiation in CH[sub.4], while, in the forward direction, SRS pulses shortened to 3–4 ns at reduced pumping.
doi_str_mv	10.3390/photonics11010039
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Both SBS and SRS optically phase-conjugated backward-reflected radiation was registered with an energy reflectivity of 10–14% in SF[sub.6] and CH[sub.4]. In SF[sub.6], the SBS pulses gradually shortened from 10 ns to 2–3 ns with a decrease in pumping to the SBS threshold of ~10 mJ, while the SRS pulse had the shortest length of 30–60 ps for the maximal pumping of 120 mJ and broadened near the SRS threshold of ~30 mJ. For the SRS pulse energy, the ~2 mJ peak power 5 × 10[sup.7] W was tenfold higher than the pump power. The theoretical model predicted a soliton-like SRS pulse compression to a temporal length of the order of the vibrational relaxation time. 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Both SBS and SRS optically phase-conjugated backward-reflected radiation was registered with an energy reflectivity of 10–14% in SF[sub.6] and CH[sub.4]. In SF[sub.6], the SBS pulses gradually shortened from 10 ns to 2–3 ns with a decrease in pumping to the SBS threshold of ~10 mJ, while the SRS pulse had the shortest length of 30–60 ps for the maximal pumping of 120 mJ and broadened near the SRS threshold of ~30 mJ. For the SRS pulse energy, the ~2 mJ peak power 5 × 10[sup.7] W was tenfold higher than the pump power. The theoretical model predicted a soliton-like SRS pulse compression to a temporal length of the order of the vibrational relaxation time. There was no pulse compression of backward SBS and SRS radiation in CH[sub.4], while, in the forward direction, SRS pulses shortened to 3–4 ns at reduced pumping.</abstract><pub>MDPI AG</pub><doi>10.3390/photonics11010039</doi></addata></record>
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source	DOAJ Directory of Open Access Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; MDPI - Multidisciplinary Digital Publishing Institute
subjects	Laser fusion Laser-plasma interactions Pellet fusion
title	Nonlinear Scattering of 248 nm Wavelength Light in High-Pressure SF[sub.6] and CH[sub.4] Gases for the Temporal Compression of a 20 ns KrF Laser Pulse
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