X-ray Capabilities on the Picosecond Timescale at the Advanced Photon Source

Adams, Bernhard W.; Borland, M.; Chen, L. X.; Chupas, Peter J.; Dashdorj, Naranbaatar; Doumy, Gilles; Đufresne, Eric M.; Durbin, Stephen M.; Dürr, H. A.; Evans, Paul G.; Graber, T.; Henning, Robert; Kanter, E. P.; Keavney, D. J.; Kurtz, C.; Li, Y.; March, Anne Marie; Moffat, Keith; Nassiri, A.; Southworth, Stephen H.; Šrajer, V.; Tiede, D. M.; Walko, Donald A.; Wang, J.; Wen, Haidan; Young, Linda; Zhang, X.; Zholents, A.

doi:10.1080/08940886.2012.663316

Cited by 3 publications

(1 citation statement)

References 12 publications

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“…Time resolved x-ray absorption spectroscopy experiments are routinely done there [89], as well as XPCI. The beamlines operate within 6-25 keV energies and with ∼10 13 -10 15 x-ray photons s −1 available [90,91]. The real advantage of synchrotrons is their ability to execute laser-pump x-ray probe experiments at a MHz repetition rate [92,93].…”

Section: Requirements Of Lwfa-based Sources For Future Applicationsmentioning

confidence: 99%

Laser wakefield accelerator based light sources: potential applications and requirements

Albert¹,

Thomas²,

Mangles³

et al. 2014

Plasma Phys. Control. Fusion

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In this article we review the prospects of laser wakefield accelerators as next generation light sources for applications. This work arose as a result of discussions held at the 2013 Laser Plasma Accelerators Workshop. X-ray phase contrast imaging, x-ray absorption spectroscopy, and nuclear resonance fluorescence are highlighted as potential applications for laser-plasma based light sources. We discuss ongoing and future efforts to improve the properties of radiation from plasma betatron emission and Compton scattering using laser wakefield accelerators for these specific applications.

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Section: Requirements Of Lwfa-based Sources For Future Applicationsmentioning

confidence: 99%

Laser wakefield accelerator based light sources: potential applications and requirements

Albert¹,

Thomas²,

Mangles³

et al. 2014

Plasma Phys. Control. Fusion

View full text Add to dashboard Cite

show abstract

X‐Ray Spectroscopy at Free Electron Lasers

Gawełda

Szlachetko

Milne

2016

X‐Ray Absorption and X‐Ray Emission Spectroscopy

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Transient X‐Ray Absorption Near Edge Structure Spectroscopy Using Broadband Free‐Electron Laser Pulses

Juranić,

Cirelli,

Mamyrbayev

et al. 2024

Small Methods

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A new method for time‐resolved X‐ray absorption near edge structure (XANES) spectroscopy that enables faster data acquisition and requires smaller sample quantities for high‐quality data, thus allowing the analysis of more samples in a shorter time is introduced. The method uses large bandwidth free electron laser pulses to measure laser‐excited XANES spectra in transmission mode. A beam‐splitting grating configuration allows simultaneous measurements of the spectra of the incoming X‐ray Free Electron Laser (XFEL) pulses and transmission XANES, which is crucial for compensating the pulse‐dependent intensity and spectrum fluctuations due to the self‐amplified spontaneous emission operation. The implementation of this new methodology is applied on a liquid solution of ammonium iron(III) oxalate jet and is compared to previous results, showing great improvements in the speed of acquisition and spectral resolution, and the ability to measure a large 2‐D spectral‐time map quickly.

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X-ray Capabilities on the Picosecond Timescale at the Advanced Photon Source

Cited by 3 publications

References 12 publications

Laser wakefield accelerator based light sources: potential applications and requirements

Laser wakefield accelerator based light sources: potential applications and requirements

X‐Ray Spectroscopy at Free Electron Lasers

Transient X‐Ray Absorption Near Edge Structure Spectroscopy Using Broadband Free‐Electron Laser Pulses

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