Compton scattering of photons by inner-shell electrons

Surić, T.; Bergstrom, P. M.; Pisk, K.; Pratt, R. H.

doi:10.1103/physrevlett.67.189

Cited by 53 publications

(26 citation statements)

References 27 publications

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“…The electron is described as an incoming plane wave (in contrast to Compton scattering from bound electrons [28,29]), but the wave function of the incoming photon is nontrivial. A twisted photon is a state with a definite orbital angular momentum projection m on the propagation axis.…”

Section: Discussionmentioning

confidence: 99%

Compton upconversion of twisted photons: backscattering of particles with non-planar wave functions

2011

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Abstract. Twisted photons are not plane waves, but superpositions of plane waves with a defined projection m of the orbital angular momentum onto the propagation axis (m is integer and may attain values m ≫ 1). Here, we describe in detail the possibility to produce high-energy twisted photons by backward Compton scattering of twisted laser photons on ultra-relativistic electrons with a Lorentz-factor γ = E/(mec 2 ) ≫ 1. When a twisted laser photon with the energy ω ∼ 1 eV performs a collision with an electron and scatters backward, the final twisted photon conserves the angular momentum m, but its energy ω ′ is increased considerably:, where x = 4E ω/(me c 2 ) 2 . The S matrix formalism for the description of scattering processes is particularly simple for plane waves with definite 4-momenta. However, in the considered case, this formalism must be enhanced because the quantum state of twisted particles cannot be reduced to plane waves. This implies that the usual notion of a cross section is inapplicable, and we introduce and calculate an averaged cross section for a quantitative description of the process. The energetic upconversion of twisted photons may be of interest for experiments with the excitation and disintegration of atoms and nuclei, and for studying the photo-effect and pair production off nuclei in previously unexplored regimes.

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Section: Discussionmentioning

confidence: 99%

Compton upconversion of twisted photons: backscattering of particles with non-planar wave functions

2011

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“…The S-Matrix approach has also been applied to inelastic scattering by Suric, Bergstrom and co-workers (Suric, et al, [13]). Their initial survey of widely used simpler approximations to inelastic scattering from inner shell electrons(B ergstrom, et al, [14]) pointed out significant deficiencies in many situations.…”

Section: Kissel Maintains the Elastic Photon-atommentioning

confidence: 99%

EPDL97: the evaluated photo data library `97 version

Cullen¹,

Hubbell²,

Kissel³

1997

639

550

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The Evaluated Photon Data Library, 1997 version (EPDL97), is designed for use in photon transport calculations at Lawrence Livermore National Laboratory. This library includes photon interaction data for all elements with atomic number between Z = 1 (hydrogen) and 100 (fermium), including: photoionization, photoexcitation, coherent and incoherent scattering, and pair and triplet production cross sections. For use in applications data is provided for all elements over the energy range 1 eV to 100 GeV. This report documents the sources and treatment of the data included in this library. EPDL97 completely supersedes the earlier 1989 version of EPDL and it is highly recommended that users only use the most recent version of this library. UCRL-50400,Vol. Rev. 51 EPDL97 UCRL-50400, Vol. 6. Rev. 5 EPDL97

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“…2). In addition to elastic (10 keV) and Compton scattered radiation, the spectra show a prominent feature around 8 keV, which arises from resonant Raman scattering on the major element W in the sample (e.g., Briand et al 1981, Surić et al 1991. This area of the spectrum and the peaks due to the scattered beam were excluded in fi tting the spectrum in GeoPIXE.…”

Section: Resultsmentioning

confidence: 99%

The Oxidation State of Europium in Hydrothermal Scheelite: In Situ Measurement by Xanes Spectroscopy

Brugger

Chu

Harland

et al. 2006

The Canadian Mineralogist

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X-ray microfl uorescence and EuL 3 micro-X-ray absorption near-edge structure (XANES) spectroscopy were conducted to determine the distribution and valence state of europium in two samples of scheelite (CaWO 4 ) containing between 40 and 350 ppm Eu. The samples come from hydrothermal gold deposits: the Archean Drysdale deposit in Kalgoorlie, Western Australia (DRY1) and the Caledonian, intrusion-related Stepnyak deposit in Kazakhstan (USP31). Laser-ablation ICP-MS analyses reveal that both samples are characterized by bell-shape chondrite-normalized REE patterns with a maximum enrichment around Eu, and a small positive or no Eu anomaly. USP31 displays a complex zoning between this pattern and a strongly LREE-enriched pattern with a strong positive Eu-anomaly. The XANES spectroscopy reveals the coexistence of Eu 2+ and Eu 3+ in both scheelite samples DRY1 and USP31. The oxidation of Eu in USP31 appears to be inhomogeneous within a single crystal, with zones containing a mixture of Eu 2+ and Eu 3+ and zones containing more than 90% Eu 2+ . This study shows that it is possible to obtain semiquantitative element-distribution maps for LREE as well as, in optimal conditions, EuL 3 XANES spectra on a bending magnet beamline equipped with a solid-state detector.

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Compton scattering of photons by inner-shell electrons

Cited by 53 publications

References 27 publications

Compton upconversion of twisted photons: backscattering of particles with non-planar wave functions

Compton upconversion of twisted photons: backscattering of particles with non-planar wave functions

EPDL97: the evaluated photo data library `97 version

The Oxidation State of Europium in Hydrothermal Scheelite: In Situ Measurement by Xanes Spectroscopy

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