Probing dynamics in colloidal crystals with pump-probe experiments at LCLS: Methodology and analysis

Nastasia Mukharamova, Sergey Lazarev, Janne Mieke Meijer, Matthieu Chollet, Andrej Singer, Ruslan P. Kurta, Dmitry Dzhigaev, Oleg Yu Gorobtsov, Garth Williams, Diling Zhu, Yiping Feng, Marcin Sikorski, Sanghoon Song, Anatoly G. Shabalin, Tatiana Gurieva, Elena A. Sulyanova, Oleksandr M. Yefanov, Ivan A. Vartanyants

Результат исследований: Материалы для журналаСтатья

2 Цитирования (Scopus)

Выдержка

We present results of the studies of dynamics in colloidal crystals performed by pump-probe experiments using an X-ray free-electron laser (XFEL). Colloidal crystals were pumped with an infrared laser at a wavelength of 800 nm with varying power and probed by XFEL pulses at an energy of 8 keV with a time delay up to 1000 ps. The positions of the Bragg peaks, and their radial and azimuthal widths were analyzed as a function of the time delay. The spectral analysis of the data did not reveal significant enhancement of frequencies expected in this experiment. This allowed us to conclude that the amplitude of vibrational modes excited in colloidal crystals was less than the systematic error caused by the noise level.

Язык оригиналаАнглийский
Номер статьи519
ЖурналApplied Sciences (Switzerland)
Том7
Номер выпуска5
DOI
СостояниеОпубликовано - 19 мая 2017

Отпечаток

X ray lasers
Pump
X-ray Laser
Free Electron Laser
Probe
Crystal
Free electron lasers
Pumps
Crystals
Methodology
Time Delay
Time delay
Experiment
Infrared lasers
Systematic Error
Experiments
Systematic errors
Spectral Analysis
Spectrum analysis
Laser pulses

ASJC Scopus subject areas

  • Applied Mathematics

Цитировать

Mukharamova, N., Lazarev, S., Meijer, J. M., Chollet, M., Singer, A., Kurta, R. P., ... Vartanyants, I. A. (2017). Probing dynamics in colloidal crystals with pump-probe experiments at LCLS: Methodology and analysis. Applied Sciences (Switzerland), 7(5), [519]. https://doi.org/10.3390/app7050519

Probing dynamics in colloidal crystals with pump-probe experiments at LCLS : Methodology and analysis. / Mukharamova, Nastasia; Lazarev, Sergey; Meijer, Janne Mieke; Chollet, Matthieu; Singer, Andrej; Kurta, Ruslan P.; Dzhigaev, Dmitry; Gorobtsov, Oleg Yu; Williams, Garth; Zhu, Diling; Feng, Yiping; Sikorski, Marcin; Song, Sanghoon; Shabalin, Anatoly G.; Gurieva, Tatiana; Sulyanova, Elena A.; Yefanov, Oleksandr M.; Vartanyants, Ivan A.

В: Applied Sciences (Switzerland), Том 7, № 5, 519, 19.05.2017.

Результат исследований: Материалы для журналаСтатья

Mukharamova, N, Lazarev, S, Meijer, JM, Chollet, M, Singer, A, Kurta, RP, Dzhigaev, D, Gorobtsov, OY, Williams, G, Zhu, D, Feng, Y, Sikorski, M, Song, S, Shabalin, AG, Gurieva, T, Sulyanova, EA, Yefanov, OM & Vartanyants, IA 2017, 'Probing dynamics in colloidal crystals with pump-probe experiments at LCLS: Methodology and analysis', Applied Sciences (Switzerland), том. 7, № 5, 519. https://doi.org/10.3390/app7050519
Mukharamova, Nastasia ; Lazarev, Sergey ; Meijer, Janne Mieke ; Chollet, Matthieu ; Singer, Andrej ; Kurta, Ruslan P. ; Dzhigaev, Dmitry ; Gorobtsov, Oleg Yu ; Williams, Garth ; Zhu, Diling ; Feng, Yiping ; Sikorski, Marcin ; Song, Sanghoon ; Shabalin, Anatoly G. ; Gurieva, Tatiana ; Sulyanova, Elena A. ; Yefanov, Oleksandr M. ; Vartanyants, Ivan A. / Probing dynamics in colloidal crystals with pump-probe experiments at LCLS : Methodology and analysis. В: Applied Sciences (Switzerland). 2017 ; Том 7, № 5.
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abstract = "We present results of the studies of dynamics in colloidal crystals performed by pump-probe experiments using an X-ray free-electron laser (XFEL). Colloidal crystals were pumped with an infrared laser at a wavelength of 800 nm with varying power and probed by XFEL pulses at an energy of 8 keV with a time delay up to 1000 ps. The positions of the Bragg peaks, and their radial and azimuthal widths were analyzed as a function of the time delay. The spectral analysis of the data did not reveal significant enhancement of frequencies expected in this experiment. This allowed us to conclude that the amplitude of vibrational modes excited in colloidal crystals was less than the systematic error caused by the noise level.",
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T2 - Methodology and analysis

AU - Mukharamova, Nastasia

AU - Lazarev, Sergey

AU - Meijer, Janne Mieke

AU - Chollet, Matthieu

AU - Singer, Andrej

AU - Kurta, Ruslan P.

AU - Dzhigaev, Dmitry

AU - Gorobtsov, Oleg Yu

AU - Williams, Garth

AU - Zhu, Diling

AU - Feng, Yiping

AU - Sikorski, Marcin

AU - Song, Sanghoon

AU - Shabalin, Anatoly G.

AU - Gurieva, Tatiana

AU - Sulyanova, Elena A.

AU - Yefanov, Oleksandr M.

AU - Vartanyants, Ivan A.

PY - 2017/5/19

Y1 - 2017/5/19

N2 - We present results of the studies of dynamics in colloidal crystals performed by pump-probe experiments using an X-ray free-electron laser (XFEL). Colloidal crystals were pumped with an infrared laser at a wavelength of 800 nm with varying power and probed by XFEL pulses at an energy of 8 keV with a time delay up to 1000 ps. The positions of the Bragg peaks, and their radial and azimuthal widths were analyzed as a function of the time delay. The spectral analysis of the data did not reveal significant enhancement of frequencies expected in this experiment. This allowed us to conclude that the amplitude of vibrational modes excited in colloidal crystals was less than the systematic error caused by the noise level.

AB - We present results of the studies of dynamics in colloidal crystals performed by pump-probe experiments using an X-ray free-electron laser (XFEL). Colloidal crystals were pumped with an infrared laser at a wavelength of 800 nm with varying power and probed by XFEL pulses at an energy of 8 keV with a time delay up to 1000 ps. The positions of the Bragg peaks, and their radial and azimuthal widths were analyzed as a function of the time delay. The spectral analysis of the data did not reveal significant enhancement of frequencies expected in this experiment. This allowed us to conclude that the amplitude of vibrational modes excited in colloidal crystals was less than the systematic error caused by the noise level.

KW - Colloidal crystal

KW - Dynamics

KW - Free-electron laser

KW - Pump-probe

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