Scaling hot-electron generation to high-power, kilojoule-class laser-solid interactions

Scaling hot-electron generation to high-power, kilojoule-class laser-solid interactions

Thin-foil targets were irradiated with high-power (1 ≤ P(L) ≤ 210 TW), 10-ps pulses focused to intensities of I>10(18) W/cm(2) and studied with K-photon spectroscopy. Comparing the energy emitted in K photons to target-heating calculations shows a laser-energy-coupling efficiency to hot electrons...

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Veröffentlicht in:Physical review letters 2010-12, Vol.105 (23), p.235001-235001, Article 235001
Hauptverfasser: Nilson, P M, Solodov, A A, Myatt, J F, Theobald, W, Jaanimagi, P A, Gao, L, Stoeckl, C, Craxton, R S, Delettrez, J A, Yaakobi, B, Zuegel, J D, Kruschwitz, B E, Dorrer, C, Kelly, J H, Akli, K U, Patel, P K, Mackinnon, A J, Betti, R, Sangster, T C, Meyerhofer, D D
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Sprache:eng
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Zusammenfassung:Thin-foil targets were irradiated with high-power (1 ≤ P(L) ≤ 210 TW), 10-ps pulses focused to intensities of I>10(18) W/cm(2) and studied with K-photon spectroscopy. Comparing the energy emitted in K photons to target-heating calculations shows a laser-energy-coupling efficiency to hot electrons of η(L-e) = 20 ± 10%. Time-resolved x-ray emission measurements suggest that laser energy is coupled to hot electrons over the entire duration of the incident laser drive. Comparison of the K-photon emission data to previous data at similar laser intensities shows that η(L-e) is independent of laser-pulse duration from 1 ≤ τ(p) ≤ 10 ps.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.105.235001