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Title: Fluid dynamics analysis of a gas attenuator for X-ray FELs under high-repetition-rate operation

Journal Article · · Journal of Synchrotron Radiation (Online)
 [1];  [2];  [2];  [3]
  1. Univ. of Texas, Arlington, TX (United States). Dept. of Mechanical and Aerospace Engineering
  2. SLAC National Accelerator Lab., Menlo Park, CA (United States)
  3. SLAC National Accelerator Lab., Menlo Park, CA (United States). Linac Coherent Light Source (LCLS)
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Newtonian fluid dynamics simulations were performed using the Navier–Stokes–Fourier formulations to elucidate the short time-scale (µs and longer) evolution of the density and temperature distributions in an argon-gas-filled attenuator for an X-ray free-electron laser under high-repetition-rate operation. Both hydrodynamic motions of the gas molecules and thermal conductions were included in a finite-volume calculation. It was found that the hydrodynamic wave motions play the primary role in creating a density depression (also known as a filament) by advectively transporting gas particles away from the X-ray laser–gas interaction region, where large pressure and temperature gradients have been built upon the initial energy depositionviaX-ray photoelectric absorption and subsequent thermalization. Concurrent outward heat conduction tends to reduce the pressure in the filament core region, generating a counter gas flow to backfill the filament, but on an initially slower time scale. If the inter-pulse separation is sufficiently short so the filament cannot recover, the depth of the filament progressively increases as the trailing pulses remove additional gas particles. Since the rate of hydrodynamic removal decreases while the rate of heat conduction back flow increases as time elapses, the two competing mechanisms ultimately reach a dynamic balance, establishing a repeating pattern for each pulse cycle. Finally, by performing simulations at higher repetition rates but lower per pulse energies while maintaining a constant time-averaged power, the amplitude of the hydrodynamic motion per pulse becomes smaller, and the evolution of the temperature and density distributions approach asymptotically towards, as expected, those calculated for a continuous-wave input of the equivalent power.

Research Organization:
SLAC National Accelerator Laboratory (SLAC), Menlo Park, CA (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Basic Energy Sciences (BES)
Grant/Contract Number:
AC02-76SF00515; FWP-2013-SLAC-100164
OSTI ID:
1360946
Journal Information:
Journal of Synchrotron Radiation (Online), Vol. 24, Issue 3; ISSN 1600-5775
Publisher:
International Union of CrystallographyCopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 5 works
Citation information provided by
Web of Science

References (11)

Finite Volume Methods for Hyperbolic Problems book January 2002
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Filamentation effect in a gas attenuator for high-repetition-rate X-ray FELs journal January 2016
Operation of a free-electron laser from the extreme ultraviolet to the water window journal June 2007
The Gas Attenuator of FLASH at DESY
  • Hahn, Ulrich; Tiedtke, Kai
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conference January 2007
Measurement of gigawatt radiation pulses from a vacuum and extreme ultraviolet free-electron laser journal October 2003
Time-dependent simulation of the gas attenuator for the LCLS-II X-ray FEL’s under high beam power operations conference September 2015
A compact X-ray free-electron laser emitting in the sub-ångström region journal June 2012
Highly coherent and stable pulses from the FERMI seeded free-electron laser in the extreme ultraviolet journal September 2012
First lasing and operation of an ångstrom-wavelength free-electron laser journal August 2010
Measurement of x-ray free-electron-laser pulse energies by photoluminescence in nitrogen gas journal March 2008

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Related Subjects

73 NUCLEAR PHYSICS AND RADIATION PHYSICS
71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
filamentation
X-ray
FEL
attenuation
gas
fluid dynamics
thermal conduction