Spatiotemporal Coherent Control of Thermal Excitations in Solids

M. Sander; M. Herzog; J. E. Pudell; M. Bargheer; N. Weinkauf; M. Pedersen; G. Newby; J. Sellmann; J. Schwarzkopf; V. Besse; V. V. Temnov; P. Gaal

doi:10.1103/PhysRevLett.119.075901

Spatiotemporal Coherent Control of Thermal Excitations in Solids

M. Sander
, M. Herzog
, J. E. Pudell
, M. Bargheer
, N. Weinkauf
, M. Pedersen
, G. Newby
, J. Sellmann
, J. Schwarzkopf
, V. Besse
, V. V. Temnov
, P. Gaal

University of Potsdam
Helmholtz-Zentrum Berlin für Materialien und Energie GmbH
Universität Hamburg
European Synchrotron Radiation Facility
Leibniz-Institut für Kristallzüchtung
Le Mans Universite
Université Versailles-Saint Quentin

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

X-ray reflectivity measurements of femtosecond laser-induced transient gratings (TG) are applied to demonstrate the spatiotemporal coherent control of thermally induced surface deformations on ultrafast time scales. Using grazing incidence x-ray diffraction we unambiguously measure the amplitude of transient surface deformations with sub-Å resolution. Understanding the dynamics of femtosecond TG excitations in terms of superposition of acoustic and thermal gratings makes it possible to develop new ways of coherent control in x-ray diffraction experiments. Being the dominant source of TG signal, the long-living thermal grating with spatial period Λ can be canceled by a second, time-delayed TG excitation shifted by Λ/2. The ultimate speed limits of such an ultrafast x-ray shutter are inferred from the detailed analysis of thermal and acoustic dynamics in TG experiments.

langue originale	Anglais
Numéro d'article	075901
journal	Physical Review Letters
Volume	119
Numéro de publication	7
Les DOIs	https://doi.org/10.1103/PhysRevLett.119.075901
état	Publié - 18 août 2017
Modification externe	Oui

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10.1103/PhysRevLett.119.075901

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title = "Spatiotemporal Coherent Control of Thermal Excitations in Solids",

abstract = "X-ray reflectivity measurements of femtosecond laser-induced transient gratings (TG) are applied to demonstrate the spatiotemporal coherent control of thermally induced surface deformations on ultrafast time scales. Using grazing incidence x-ray diffraction we unambiguously measure the amplitude of transient surface deformations with sub-{\AA} resolution. Understanding the dynamics of femtosecond TG excitations in terms of superposition of acoustic and thermal gratings makes it possible to develop new ways of coherent control in x-ray diffraction experiments. Being the dominant source of TG signal, the long-living thermal grating with spatial period Λ can be canceled by a second, time-delayed TG excitation shifted by Λ/2. The ultimate speed limits of such an ultrafast x-ray shutter are inferred from the detailed analysis of thermal and acoustic dynamics in TG experiments.",

author = "M. Sander and M. Herzog and Pudell, \{J. E.\} and M. Bargheer and N. Weinkauf and M. Pedersen and G. Newby and J. Sellmann and J. Schwarzkopf and V. Besse and Temnov, \{V. V.\} and P. Gaal",

note = "Publisher Copyright: {\textcopyright} 2017 American Physical Society.",

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doi = "10.1103/PhysRevLett.119.075901",

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T1 - Spatiotemporal Coherent Control of Thermal Excitations in Solids

AU - Sander, M.

AU - Herzog, M.

AU - Pudell, J. E.

AU - Bargheer, M.

AU - Weinkauf, N.

AU - Pedersen, M.

AU - Newby, G.

AU - Sellmann, J.

AU - Schwarzkopf, J.

AU - Besse, V.

AU - Temnov, V. V.

AU - Gaal, P.

PY - 2017/8/18

Y1 - 2017/8/18

N2 - X-ray reflectivity measurements of femtosecond laser-induced transient gratings (TG) are applied to demonstrate the spatiotemporal coherent control of thermally induced surface deformations on ultrafast time scales. Using grazing incidence x-ray diffraction we unambiguously measure the amplitude of transient surface deformations with sub-Å resolution. Understanding the dynamics of femtosecond TG excitations in terms of superposition of acoustic and thermal gratings makes it possible to develop new ways of coherent control in x-ray diffraction experiments. Being the dominant source of TG signal, the long-living thermal grating with spatial period Λ can be canceled by a second, time-delayed TG excitation shifted by Λ/2. The ultimate speed limits of such an ultrafast x-ray shutter are inferred from the detailed analysis of thermal and acoustic dynamics in TG experiments.

AB - X-ray reflectivity measurements of femtosecond laser-induced transient gratings (TG) are applied to demonstrate the spatiotemporal coherent control of thermally induced surface deformations on ultrafast time scales. Using grazing incidence x-ray diffraction we unambiguously measure the amplitude of transient surface deformations with sub-Å resolution. Understanding the dynamics of femtosecond TG excitations in terms of superposition of acoustic and thermal gratings makes it possible to develop new ways of coherent control in x-ray diffraction experiments. Being the dominant source of TG signal, the long-living thermal grating with spatial period Λ can be canceled by a second, time-delayed TG excitation shifted by Λ/2. The ultimate speed limits of such an ultrafast x-ray shutter are inferred from the detailed analysis of thermal and acoustic dynamics in TG experiments.

UR - https://www.scopus.com/pages/publications/85028359693

U2 - 10.1103/PhysRevLett.119.075901

DO - 10.1103/PhysRevLett.119.075901

M3 - Article

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AN - SCOPUS:85028359693

SN - 0031-9007

VL - 119

JO - Physical Review Letters

JF - Physical Review Letters

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Spatiotemporal Coherent Control of Thermal Excitations in Solids

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