Diffraction based Hanbury Brown and Twiss interferometry at a hard x-ray free-electron laser

O. Yu Gorobtsov, N. Mukharamova, S. Lazarev, M. Chollet, D. Zhu, Y. Feng, R. P. Kurta, J. M. Meijer, G. Williams, M. Sikorski, S. Song, D. Dzhigaev, S. Serkez, A. Singer, A. V. Petukhov, I. A. Vartanyants

Результат исследований: Материалы для журналаСтатья

3 Цитирования (Scopus)

Выдержка

X-ray free-electron lasers (XFELs) provide extremely bright and highly spatially coherent x-ray radiation with femtosecond pulse duration. Currently, they are widely used in biology and material science. Knowledge of the XFEL statistical properties during an experiment may be vitally important for the accurate interpretation of the results. Here, for the first time, we demonstrate Hanbury Brown and Twiss (HBT) interferometry performed in diffraction mode at an XFEL source. It allowed us to determine the XFEL statistical properties directly from the Bragg peaks originating from colloidal crystals. This approach is different from the traditional one when HBT interferometry is performed in the direct beam without a sample. Our analysis has demonstrated nearly full (80%) global spatial coherence of the XFEL pulses and an average pulse duration on the order of ten femtoseconds for the monochromatized beam, which is significantly shorter than expected from the electron bunch measurements.

Язык оригиналаАнглийский
Номер статьи2219
ЖурналScientific Reports
Том8
Номер выпуска1
DOI
СостояниеОпубликовано - 1 дек 2018

Отпечаток

x ray lasers
free electron lasers
interferometry
diffraction
x rays
pulse duration
materials science
biology
radiation
pulses
crystals
electrons

ASJC Scopus subject areas

  • General

Цитировать

Gorobtsov, O. Y., Mukharamova, N., Lazarev, S., Chollet, M., Zhu, D., Feng, Y., ... Vartanyants, I. A. (2018). Diffraction based Hanbury Brown and Twiss interferometry at a hard x-ray free-electron laser. Scientific Reports, 8(1), [2219]. https://doi.org/10.1038/s41598-018-19793-1

Diffraction based Hanbury Brown and Twiss interferometry at a hard x-ray free-electron laser. / Gorobtsov, O. Yu; Mukharamova, N.; Lazarev, S.; Chollet, M.; Zhu, D.; Feng, Y.; Kurta, R. P.; Meijer, J. M.; Williams, G.; Sikorski, M.; Song, S.; Dzhigaev, D.; Serkez, S.; Singer, A.; Petukhov, A. V.; Vartanyants, I. A.

В: Scientific Reports, Том 8, № 1, 2219, 01.12.2018.

Результат исследований: Материалы для журналаСтатья

Gorobtsov, OY, Mukharamova, N, Lazarev, S, Chollet, M, Zhu, D, Feng, Y, Kurta, RP, Meijer, JM, Williams, G, Sikorski, M, Song, S, Dzhigaev, D, Serkez, S, Singer, A, Petukhov, AV & Vartanyants, IA 2018, 'Diffraction based Hanbury Brown and Twiss interferometry at a hard x-ray free-electron laser', Scientific Reports, том. 8, № 1, 2219. https://doi.org/10.1038/s41598-018-19793-1
Gorobtsov, O. Yu ; Mukharamova, N. ; Lazarev, S. ; Chollet, M. ; Zhu, D. ; Feng, Y. ; Kurta, R. P. ; Meijer, J. M. ; Williams, G. ; Sikorski, M. ; Song, S. ; Dzhigaev, D. ; Serkez, S. ; Singer, A. ; Petukhov, A. V. ; Vartanyants, I. A. / Diffraction based Hanbury Brown and Twiss interferometry at a hard x-ray free-electron laser. В: Scientific Reports. 2018 ; Том 8, № 1.
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abstract = "X-ray free-electron lasers (XFELs) provide extremely bright and highly spatially coherent x-ray radiation with femtosecond pulse duration. Currently, they are widely used in biology and material science. Knowledge of the XFEL statistical properties during an experiment may be vitally important for the accurate interpretation of the results. Here, for the first time, we demonstrate Hanbury Brown and Twiss (HBT) interferometry performed in diffraction mode at an XFEL source. It allowed us to determine the XFEL statistical properties directly from the Bragg peaks originating from colloidal crystals. This approach is different from the traditional one when HBT interferometry is performed in the direct beam without a sample. Our analysis has demonstrated nearly full (80{\%}) global spatial coherence of the XFEL pulses and an average pulse duration on the order of ten femtoseconds for the monochromatized beam, which is significantly shorter than expected from the electron bunch measurements.",
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AU - Gorobtsov, O. Yu

AU - Mukharamova, N.

AU - Lazarev, S.

AU - Chollet, M.

AU - Zhu, D.

AU - Feng, Y.

AU - Kurta, R. P.

AU - Meijer, J. M.

AU - Williams, G.

AU - Sikorski, M.

AU - Song, S.

AU - Dzhigaev, D.

AU - Serkez, S.

AU - Singer, A.

AU - Petukhov, A. V.

AU - Vartanyants, I. A.

PY - 2018/12/1

Y1 - 2018/12/1

N2 - X-ray free-electron lasers (XFELs) provide extremely bright and highly spatially coherent x-ray radiation with femtosecond pulse duration. Currently, they are widely used in biology and material science. Knowledge of the XFEL statistical properties during an experiment may be vitally important for the accurate interpretation of the results. Here, for the first time, we demonstrate Hanbury Brown and Twiss (HBT) interferometry performed in diffraction mode at an XFEL source. It allowed us to determine the XFEL statistical properties directly from the Bragg peaks originating from colloidal crystals. This approach is different from the traditional one when HBT interferometry is performed in the direct beam without a sample. Our analysis has demonstrated nearly full (80%) global spatial coherence of the XFEL pulses and an average pulse duration on the order of ten femtoseconds for the monochromatized beam, which is significantly shorter than expected from the electron bunch measurements.

AB - X-ray free-electron lasers (XFELs) provide extremely bright and highly spatially coherent x-ray radiation with femtosecond pulse duration. Currently, they are widely used in biology and material science. Knowledge of the XFEL statistical properties during an experiment may be vitally important for the accurate interpretation of the results. Here, for the first time, we demonstrate Hanbury Brown and Twiss (HBT) interferometry performed in diffraction mode at an XFEL source. It allowed us to determine the XFEL statistical properties directly from the Bragg peaks originating from colloidal crystals. This approach is different from the traditional one when HBT interferometry is performed in the direct beam without a sample. Our analysis has demonstrated nearly full (80%) global spatial coherence of the XFEL pulses and an average pulse duration on the order of ten femtoseconds for the monochromatized beam, which is significantly shorter than expected from the electron bunch measurements.

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