Projecting picosecond lattice dynamics through x-ray topography

Ola Synnergren; Michael Harbst; T Missalla; Jörgen Larsson; G Katona; R Neutze; R Wouts

doi:10.1063/1.1476957

Projecting picosecond lattice dynamics through x-ray topography

Ola Synnergren, Michael Harbst, T Missalla, Jörgen Larsson, G Katona, R Neutze, R Wouts

Atomic Physics

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Abstract

A method for time-resolved x-ray diffraction studies has been demonstrated. As a test case, coherent acoustic phonon propagation into crystalline InSb is observed using a laser plasma x-ray source. An extended x-ray topogram of the semiconductor's surface was projected onto a high spatial resolution x-ray detector and acoustic phonons were excited by rapidly heating the crystal's surface with a femtosecond laser pulse. A correlation between the spatial position on the x-ray detector and the time of arrival of the laser pulse was encoded into the experimental geometry by tilting the incident laser pulse with an optical grating. This approach enabled a temporal window of 200 ps to be sampled in a single topogram, thereby negating the disadvantages of pulse-to-pulse fluctuations in the intensity and spectrum of the laser-plasma source. (C) 2002 American Institute of Physics.

Original language	English
Pages (from-to)	3727-3729
Journal	Applied Physics Letters
Volume	80
Issue number	20
DOIs	https://doi.org/10.1063/1.1476957
Publication status	Published - 2002

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Atom and Molecular Physics and Optics

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10.1063/1.1476957

Synnergren2002

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title = "Projecting picosecond lattice dynamics through x-ray topography",

abstract = "A method for time-resolved x-ray diffraction studies has been demonstrated. As a test case, coherent acoustic phonon propagation into crystalline InSb is observed using a laser plasma x-ray source. An extended x-ray topogram of the semiconductor's surface was projected onto a high spatial resolution x-ray detector and acoustic phonons were excited by rapidly heating the crystal's surface with a femtosecond laser pulse. A correlation between the spatial position on the x-ray detector and the time of arrival of the laser pulse was encoded into the experimental geometry by tilting the incident laser pulse with an optical grating. This approach enabled a temporal window of 200 ps to be sampled in a single topogram, thereby negating the disadvantages of pulse-to-pulse fluctuations in the intensity and spectrum of the laser-plasma source. (C) 2002 American Institute of Physics.",

author = "Ola Synnergren and Michael Harbst and T Missalla and J{\"o}rgen Larsson and G Katona and R Neutze and R Wouts",

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T1 - Projecting picosecond lattice dynamics through x-ray topography

AU - Synnergren, Ola

AU - Harbst, Michael

AU - Missalla, T

AU - Larsson, Jörgen

AU - Katona, G

AU - Neutze, R

AU - Wouts, R

PY - 2002

Y1 - 2002

N2 - A method for time-resolved x-ray diffraction studies has been demonstrated. As a test case, coherent acoustic phonon propagation into crystalline InSb is observed using a laser plasma x-ray source. An extended x-ray topogram of the semiconductor's surface was projected onto a high spatial resolution x-ray detector and acoustic phonons were excited by rapidly heating the crystal's surface with a femtosecond laser pulse. A correlation between the spatial position on the x-ray detector and the time of arrival of the laser pulse was encoded into the experimental geometry by tilting the incident laser pulse with an optical grating. This approach enabled a temporal window of 200 ps to be sampled in a single topogram, thereby negating the disadvantages of pulse-to-pulse fluctuations in the intensity and spectrum of the laser-plasma source. (C) 2002 American Institute of Physics.

AB - A method for time-resolved x-ray diffraction studies has been demonstrated. As a test case, coherent acoustic phonon propagation into crystalline InSb is observed using a laser plasma x-ray source. An extended x-ray topogram of the semiconductor's surface was projected onto a high spatial resolution x-ray detector and acoustic phonons were excited by rapidly heating the crystal's surface with a femtosecond laser pulse. A correlation between the spatial position on the x-ray detector and the time of arrival of the laser pulse was encoded into the experimental geometry by tilting the incident laser pulse with an optical grating. This approach enabled a temporal window of 200 ps to be sampled in a single topogram, thereby negating the disadvantages of pulse-to-pulse fluctuations in the intensity and spectrum of the laser-plasma source. (C) 2002 American Institute of Physics.

U2 - 10.1063/1.1476957

DO - 10.1063/1.1476957

M3 - Article

SN - 0003-6951

VL - 80

SP - 3727

EP - 3729

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 20

ER -

Projecting picosecond lattice dynamics through x-ray topography

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