Lifetimes of confined acoustic phonons in ultrathin silicon membranes

J. Cuffe; O. Ristow; E. Chávez; A. Shchepetov; P. O. Chapuis; F. Alzina; M. Hettich; M. Prunnila; J. Ahopelto; T. Dekorsy; C. M. Sotomayor Torres

doi:10.1103/PhysRevLett.110.095503

Lifetimes of confined acoustic phonons in ultrathin silicon membranes

J. Cuffe
, O. Ristow
, E. Chávez
, A. Shchepetov
, P. O. Chapuis
, F. Alzina
, M. Hettich
, M. Prunnila
, J. Ahopelto
, T. Dekorsy
, C. M. Sotomayor Torres

Research output: Contribution to journal › Article › peer-review

Abstract

We study the relaxation of coherent acoustic phonon modes with frequencies up to 500 GHz in ultrathin free-standing silicon membranes. Using an ultrafast pump-probe technique of asynchronous optical sampling, we observe that the decay time of the first-order dilatational mode decreases significantly from ∼4.7 ns to 5 ps with decreasing membrane thickness from ∼194 to 8 nm. The experimental results are compared with theories considering both intrinsic phonon-phonon interactions and extrinsic surface roughness scattering including a wavelength-dependent specularity. Our results provide insight to understand some of the limits of nanomechanical resonators and thermal transport in nanostructures.

Original language	English
Article number	095503
Journal	Physical Review Letters
Volume	110
Issue number	9
DOIs	https://doi.org/10.1103/PhysRevLett.110.095503
Publication status	Published - 26 Feb 2013
Externally published	Yes

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10.1103/PhysRevLett.110.095503

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title = "Lifetimes of confined acoustic phonons in ultrathin silicon membranes",

abstract = "We study the relaxation of coherent acoustic phonon modes with frequencies up to 500 GHz in ultrathin free-standing silicon membranes. Using an ultrafast pump-probe technique of asynchronous optical sampling, we observe that the decay time of the first-order dilatational mode decreases significantly from ∼4.7 ns to 5 ps with decreasing membrane thickness from ∼194 to 8 nm. The experimental results are compared with theories considering both intrinsic phonon-phonon interactions and extrinsic surface roughness scattering including a wavelength-dependent specularity. Our results provide insight to understand some of the limits of nanomechanical resonators and thermal transport in nanostructures.",

author = "J. Cuffe and O. Ristow and E. Ch{\'a}vez and A. Shchepetov and Chapuis, \{P. O.\} and F. Alzina and M. Hettich and M. Prunnila and J. Ahopelto and T. Dekorsy and \{Sotomayor Torres\}, \{C. M.\}",

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doi = "10.1103/PhysRevLett.110.095503",

language = "English",

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T1 - Lifetimes of confined acoustic phonons in ultrathin silicon membranes

AU - Cuffe, J.

AU - Ristow, O.

AU - Chávez, E.

AU - Shchepetov, A.

AU - Chapuis, P. O.

AU - Alzina, F.

AU - Hettich, M.

AU - Prunnila, M.

AU - Ahopelto, J.

AU - Dekorsy, T.

AU - Sotomayor Torres, C. M.

PY - 2013/2/26

Y1 - 2013/2/26

N2 - We study the relaxation of coherent acoustic phonon modes with frequencies up to 500 GHz in ultrathin free-standing silicon membranes. Using an ultrafast pump-probe technique of asynchronous optical sampling, we observe that the decay time of the first-order dilatational mode decreases significantly from ∼4.7 ns to 5 ps with decreasing membrane thickness from ∼194 to 8 nm. The experimental results are compared with theories considering both intrinsic phonon-phonon interactions and extrinsic surface roughness scattering including a wavelength-dependent specularity. Our results provide insight to understand some of the limits of nanomechanical resonators and thermal transport in nanostructures.

AB - We study the relaxation of coherent acoustic phonon modes with frequencies up to 500 GHz in ultrathin free-standing silicon membranes. Using an ultrafast pump-probe technique of asynchronous optical sampling, we observe that the decay time of the first-order dilatational mode decreases significantly from ∼4.7 ns to 5 ps with decreasing membrane thickness from ∼194 to 8 nm. The experimental results are compared with theories considering both intrinsic phonon-phonon interactions and extrinsic surface roughness scattering including a wavelength-dependent specularity. Our results provide insight to understand some of the limits of nanomechanical resonators and thermal transport in nanostructures.

UR - https://www.scopus.com/pages/publications/84874473796

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DO - 10.1103/PhysRevLett.110.095503

M3 - Article

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AN - SCOPUS:84874473796

SN - 0031-9007

VL - 110

JO - Physical Review Letters

JF - Physical Review Letters

IS - 9

M1 - 095503

ER -

Lifetimes of confined acoustic phonons in ultrathin silicon membranes

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