Unveiling and driving hidden resonances with high-fluence, high-intensity x-ray pulses

We show that high fluence, high-intensity x-ray pulses from the world's first hard x-ray free-electron laser produce nonlinear phenomena that differ dramatically from the linear x-ray-matter interaction processes that are encountered at synchrotron x-ray sources. We use intense x-ray pulses of...

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Veröffentlicht in:	Phys. Rev. Lett 2011-12, Vol.107 (23), p.233001-233001, Article 233001
Hauptverfasser:	Kanter, E P, Krässig, B, Li, Y, March, A M, Ho, P, Rohringer, N, Santra, R, Southworth, S H, DiMauro, L F, Doumy, G, Roedig, C A, Berrah, N, Fang, L, Hoener, M, Bucksbaum, P H, Ghimire, S, Reis, D A, Bozek, J D, Bostedt, C, Messerschmidt, M, Young, L
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container_title	Phys. Rev. Lett
container_volume	107
creator	Kanter, E P Krässig, B Li, Y March, A M Ho, P Rohringer, N Santra, R Southworth, S H DiMauro, L F Doumy, G Roedig, C A Berrah, N Fang, L Hoener, M Bucksbaum, P H Ghimire, S Reis, D A Bozek, J D Bostedt, C Messerschmidt, M Young, L
description	We show that high fluence, high-intensity x-ray pulses from the world's first hard x-ray free-electron laser produce nonlinear phenomena that differ dramatically from the linear x-ray-matter interaction processes that are encountered at synchrotron x-ray sources. We use intense x-ray pulses of sub-10-fs duration to first reveal and subsequently drive the 1s↔2p resonance in singly ionized neon. This photon-driven cycling of an inner-shell electron modifies the Auger decay process, as evidenced by line shape modification. Our work demonstrates the propensity of high-fluence, femtosecond x-ray pulses to alter the target within a single pulse, i.e., to unveil hidden resonances, by cracking open inner shells energetically inaccessible via single-photon absorption, and to consequently trigger damaging electron cascades at unexpectedly low photon energies.
doi_str_mv	10.1103/PhysRevLett.107.233001
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title	Unveiling and driving hidden resonances with high-fluence, high-intensity x-ray pulses
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