Experimental strategies for optical pump – soft x-ray probe experiments at the LCLS

Experimental strategies for optical pump – soft x-ray probe experiments at the LCLS

Free electron laser (FEL) based x-ray sources show great promise for use in ultrafast molecular studies due to the short pulse durations and site/element sensitivity in this spectral range. However, the self amplified spontaneous emission (SASE) process mostly used in FELs is intrinsically noisy res...

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Veröffentlicht in:Journal of physics. Conference series 2014-01, Vol.488 (1), p.1-8
Hauptverfasser: McFarland, B K, Berrah, N, Bostedt, C, Bozek, J, Bucksbaum, P H, Castagna, J C, Coffee, R N, Cryan, J P, Fang, L, Farrell, J P, Feifel, R, Gaffney, K J, Glownia, J M, Martinez, T J, Miyabe, S, Mucke, M, Murphy, B, Natan, A, Osipov, T, Petrovic, V S, Schorb, S, Schultz, Th, Spector, L S, Swiggers, M, Tarantelli, F, Tenney, I, Wang, S, White, J L, White, W, Gühr, M
Format: Artikel
Sprache:eng
Schlagworte:
Amplification
Beams (radiation)
Delay
Free electron lasers
Jitter
Molecular spectroscopy
Parameters
Physics
Short pulses
Soft x rays
Spectral resolution
Spectral sensitivity
Spontaneous emission
Synchronism
Thymine
Vibration
X ray sources
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Zusammenfassung:Free electron laser (FEL) based x-ray sources show great promise for use in ultrafast molecular studies due to the short pulse durations and site/element sensitivity in this spectral range. However, the self amplified spontaneous emission (SASE) process mostly used in FELs is intrinsically noisy resulting in highly fluctuating beam parameters. Additionally timing synchronization of optical and FEL sources adds delay jitter in pump-probe experiments. We show how we mitigate the effects of source noise for the case of ultrafast molecular spectroscopy of the nucleobase thymine. Using binning and resorting techniques allows us to increase time and spectral resolution. In addition, choosing observables independent of noisy beam parameters enhances the signal fidelity.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/488/1/012015