X-ray laser seeding for short pulses and narrow bandwidth

X-ray laser seeding for short pulses and narrow bandwidth

The performance of an X-ray free electron laser can be substantially enhanced if a coherent seed source is used to provide sufficient initial power that it dominates the spontaneous emission in the early part of the undulator. The FEL output then becomes an amplified reproduction of the input seed h...

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Bibliographische Detailangaben
Hauptverfasser: Graves, W.S., Farkhondeh, M., Kaertner, F.X., Milner, R., Tschalaer, C., van der Laan, J.B., Wang, F., Zolfaghari, A., Zwart, T., Fawley, W.M., Moncton, D.E.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Bandwidth
Electron emission
Free electron lasers
Optical pulses
Power lasers
Pulse amplifiers
Spectroscopy
Spontaneous emission
Undulators
X-ray lasers
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Beschreibung
Zusammenfassung:The performance of an X-ray free electron laser can be substantially enhanced if a coherent seed source is used to provide sufficient initial power that it dominates the spontaneous emission in the early part of the undulator. The FEL output then becomes an amplified reproduction of the input seed having, under certain conditions, the same pulse length and bandwidth. For studies of molecular and atomic time dynamics the pulse length may be very short, reaching below 1 fs with a transform limited bandwidth of a few tenths of a percent. For spectroscopy and diffraction experiments the beam may alternatively be made monochromatic at the level of one part in 10/sup 5/ or better, with a pulse length of tens of femtoseconds. Simulation studies of seeded FEL performance at 0.3 nm using the code GINGER are presented.
ISSN:1063-3928
2152-9647
DOI:10.1109/PAC.2003.1289566