An inverse free electron laser acceleration-driven Compton scattering X-ray source

Gadjev, I.; Sudar, N.; Babzien, M.; Duris, J.; Hoang, P.; Fedurin, M.; Kusche, K.; Malone, R.; Musumeci, P.; Palmer, M.; Pogorelsky, I.; Polyanskiy, M.; Sakai, Y.; Swinson, C.; Williams, O.; Rosenzweig, J. B.

doi:10.1038/s41598-018-36423-y

Title: An inverse free electron laser acceleration-driven Compton scattering X-ray source

Journal Article · Thu Jan 24 00:00:00 EST 2019 · Scientific Reports

DOI:https://doi.org/10.1038/s41598-018-36423-y· OSTI ID:1619466

Gadjev, I.; Sudar, N.; Babzien, M.; Duris, J.; Hoang, P.; Fedurin, M.; Kusche, K.; Malone, R.; Musumeci, P.; Palmer, M.; Pogorelsky, I.; Polyanskiy, M.; Sakai, Y.;

; Williams, O.; Rosenzweig, J. B.

Abstract The generation of X-rays and γ-rays based on synchrotron radiation from free electrons, emitted in magnet arrays such as undulators, forms the basis of much of modern X-ray science. This approach has the drawback of requiring very high energy, up to the multi-GeV-scale, electron beams, to obtain the required photon energy. Due to the limit in accelerating gradients in conventional particle accelerators, reaching high energy typically demands use of instruments exceeding 100’s of meters in length. Compact, less costly, monochromatic X-ray sources based on very high field acceleration and very short period undulators, however, may enable diverse, paradigm-changing X-ray applications ranging from novel X-ray therapy techniques to active interrogation of sensitive materials, by making them accessible in energy reach, cost and size. Such compactness and enhanced energy reach may be obtained by an all-optical approach, which employs a laser-driven high gradient accelerator based on inverse free electron laser (IFEL), followed by a collision point for inverse Compton scattering (ICS), a scheme where a laser is used to provide undulator fields. We present an experimental proof-of-principle of this approach, where a TW-class CO ₂ laser pulse is split in two, with half used to accelerate a high quality electron beam up to 84 MeV through the IFEL interaction, and the other half acts as an electromagnetic undulator to generate up to 13 keV X-rays via ICS. These results demonstrate the feasibility of this scheme, which can be joined with other techniques such as laser recirculation to yield very compact photon sources, with both high peak and average brilliance, and with energies extending from the keV to MeV scale. Further, use of the IFEL acceleration with the ICS interaction produces a train of high intensity X-ray pulses, thus enabling a unique tool synchronized with a laser pulse for ultra-fast strobe, pump-probe experimental scenarios.

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Research Organization:: Brookhaven National Laboratory (BNL), Upton, NY (United States)

Sponsoring Organization:: USDOE Office of Science (SC), Nuclear Physics (NP)

Grant/Contract Number:: SC0009914; SC0012704

OSTI ID:: 1619466

Alternate ID(s):: OSTI ID: 1495011

Report Number(s):: BNL-211264-2019-JAAM; 532; PII: 36423

Journal Information:: Scientific Reports, Journal Name: Scientific Reports Vol. 9 Journal Issue: 1; ISSN 2045-2322

Publisher:: Nature Publishing GroupCopyright Statement

Country of Publication:: United Kingdom

Language:: English

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Cited by: 16 works

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