Extreme ultraviolet laser excites atomic giant resonance

Exceptional behavior of light-matter interaction in the extreme ultraviolet is demonstrated. The photoionization of different rare gases was compared at the free-electron laser in Hamburg, FLASH, by applying ion spectroscopy at the wavelength of 13.7 nm and irradiance levels of thousands of terawatt...

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Veröffentlicht in:	Physical review letters 2009-04, Vol.102 (16), p.163002-163002
Hauptverfasser:	Richter, M, Amusia, M Ya, Bobashev, S V, Feigl, T, Juranić, P N, Martins, M, Sorokin, A A, Tiedtke, K
Format:	Artikel
Sprache:	eng
Schlagworte:	ARGON ATOMIC AND MOLECULAR PHYSICS EXTREME ULTRAVIOLET RADIATION FREE ELECTRON LASERS GIANT RESONANCE ION SPECTROSCOPY KRYPTON MATTER NEON NONLINEAR PROBLEMS PHOTOIONIZATION RADIANT FLUX DENSITY XENON
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container_issue	16
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container_title	Physical review letters
container_volume	102
creator	Richter, M Amusia, M Ya Bobashev, S V Feigl, T Juranić, P N Martins, M Sorokin, A A Tiedtke, K
description	Exceptional behavior of light-matter interaction in the extreme ultraviolet is demonstrated. The photoionization of different rare gases was compared at the free-electron laser in Hamburg, FLASH, by applying ion spectroscopy at the wavelength of 13.7 nm and irradiance levels of thousands of terawatts per square centimeter. In the case of xenon, the degree of nonlinear photoionization was found to be significantly higher than for neon, argon, and krypton. This target specific behavior cannot be explained by the standard theories developed for optical strong-field phenomena. We suspect that the collective giant 4d resonance of xenon is the driving force behind the effect that arises in this spectral range.
doi_str_mv	10.1103/PhysRevLett.102.163002
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subjects	ARGON ATOMIC AND MOLECULAR PHYSICS EXTREME ULTRAVIOLET RADIATION FREE ELECTRON LASERS GIANT RESONANCE ION SPECTROSCOPY KRYPTON MATTER NEON NONLINEAR PROBLEMS PHOTOIONIZATION RADIANT FLUX DENSITY XENON
title	Extreme ultraviolet laser excites atomic giant resonance
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