Measurement of shorter-than-skin-depth acoustic pulses in a metal film via transient reflectivity

K. J. Manke; A. A. Maznev; C. Klieber; V. Shalagatskyi; V. V. Temnov; D. Makarov; S. H. Baek; C. B. Eom; K. A. Nelson

doi:10.1063/1.4826210

Measurement of shorter-than-skin-depth acoustic pulses in a metal film via transient reflectivity

K. J. Manke
, A. A. Maznev
, C. Klieber
, V. Shalagatskyi
, V. V. Temnov
, D. Makarov
, S. H. Baek
, C. B. Eom
, K. A. Nelson

Massachusetts Institute of Technology
Le Mans Universite
IFW Dresden
University of Wisconsin

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

Résumé

The detection of ultrashort laser-generated acoustic pulses at a metal surface and the reconstruction of the acoustic strain profile are investigated. A 2 ps-long acoustic pulse generated in an SrRuO₃ layer propagates through an adjacent gold layer and is detected at its surface by a reflected probe pulse. We show that the intricate shape of the transient reflectivity waveform and the ability to resolve acoustic pulses shorter than the optical skin depth are controlled by a single parameter, which is determined by the ratio of the real and imaginary parts of the photoelastic constant of the material. We also demonstrate a Fourier transform-based algorithm that can be used to extract acoustic strain profiles from transient reflectivity measurements.

langue originale	Anglais
Numéro d'article	173104
journal	Applied Physics Letters
Volume	103
Numéro de publication	17
Les DOIs	https://doi.org/10.1063/1.4826210
état	Publié - 21 oct. 2013
Modification externe	Oui

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10.1063/1.4826210

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title = "Measurement of shorter-than-skin-depth acoustic pulses in a metal film via transient reflectivity",

abstract = "The detection of ultrashort laser-generated acoustic pulses at a metal surface and the reconstruction of the acoustic strain profile are investigated. A 2 ps-long acoustic pulse generated in an SrRuO3 layer propagates through an adjacent gold layer and is detected at its surface by a reflected probe pulse. We show that the intricate shape of the transient reflectivity waveform and the ability to resolve acoustic pulses shorter than the optical skin depth are controlled by a single parameter, which is determined by the ratio of the real and imaginary parts of the photoelastic constant of the material. We also demonstrate a Fourier transform-based algorithm that can be used to extract acoustic strain profiles from transient reflectivity measurements.",

author = "Manke, \{K. J.\} and Maznev, \{A. A.\} and C. Klieber and V. Shalagatskyi and Temnov, \{V. V.\} and D. Makarov and Baek, \{S. H.\} and Eom, \{C. B.\} and Nelson, \{K. A.\}",

year = "2013",

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AU - Manke, K. J.

AU - Maznev, A. A.

AU - Klieber, C.

AU - Shalagatskyi, V.

AU - Temnov, V. V.

AU - Makarov, D.

AU - Baek, S. H.

AU - Eom, C. B.

AU - Nelson, K. A.

PY - 2013/10/21

Y1 - 2013/10/21

N2 - The detection of ultrashort laser-generated acoustic pulses at a metal surface and the reconstruction of the acoustic strain profile are investigated. A 2 ps-long acoustic pulse generated in an SrRuO3 layer propagates through an adjacent gold layer and is detected at its surface by a reflected probe pulse. We show that the intricate shape of the transient reflectivity waveform and the ability to resolve acoustic pulses shorter than the optical skin depth are controlled by a single parameter, which is determined by the ratio of the real and imaginary parts of the photoelastic constant of the material. We also demonstrate a Fourier transform-based algorithm that can be used to extract acoustic strain profiles from transient reflectivity measurements.

AB - The detection of ultrashort laser-generated acoustic pulses at a metal surface and the reconstruction of the acoustic strain profile are investigated. A 2 ps-long acoustic pulse generated in an SrRuO3 layer propagates through an adjacent gold layer and is detected at its surface by a reflected probe pulse. We show that the intricate shape of the transient reflectivity waveform and the ability to resolve acoustic pulses shorter than the optical skin depth are controlled by a single parameter, which is determined by the ratio of the real and imaginary parts of the photoelastic constant of the material. We also demonstrate a Fourier transform-based algorithm that can be used to extract acoustic strain profiles from transient reflectivity measurements.

UR - https://www.scopus.com/pages/publications/84887105868

U2 - 10.1063/1.4826210

DO - 10.1063/1.4826210

M3 - Article

AN - SCOPUS:84887105868

SN - 0003-6951

VL - 103

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 17

M1 - 173104

ER -

Measurement of shorter-than-skin-depth acoustic pulses in a metal film via transient reflectivity

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