Sound attenuation in a unexplored frequency region: Brillouin ultraviolet light scattering measurements in v-Si O2

P. Benassi; S. Caponi; R. Eramo; A. Fontana; A. Giugni; M. Nardone; M. Sampoli; G. Viliani

doi:10.1103/PhysRevB.71.172201

Sound attenuation in a unexplored frequency region: Brillouin ultraviolet light scattering measurements in v-Si O2

P. Benassi^*, S. Caponi, R. Eramo, A. Fontana, A. Giugni, M. Nardone, M. Sampoli, G. Viliani

^*Corresponding author for this work

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

53 Scopus citations

Abstract

We report ultraviolet Brillouin light-scattering experimental data on v-Si O2 in an unexplored frequency region, performed with a newly available spectrometer, up to exchanged wave vector q values of 0.075 nm-1, at different temperatures. The measured attenuation follows a q2 law and is temperature dependent. Such temperature dependence is found to be in good agreement with that measured at lower q, suggesting that the broadening of the Brillouin peak is mainly due to a dynamic attenuation mechanism. The comparison of the present data with those obtained by inelastic x-ray and visible scattering indicates the existence of a crossover among different attenuation mechanisms, whose nature is briefly discussed.

Original language	English (US)
Article number	172201
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	71
Issue number	17
DOIs	https://doi.org/10.1103/PhysRevB.71.172201
State	Published - 2005
Externally published	Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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title = "Sound attenuation in a unexplored frequency region: Brillouin ultraviolet light scattering measurements in v-Si O2",

abstract = "We report ultraviolet Brillouin light-scattering experimental data on v-Si O2 in an unexplored frequency region, performed with a newly available spectrometer, up to exchanged wave vector q values of 0.075 nm-1, at different temperatures. The measured attenuation follows a q2 law and is temperature dependent. Such temperature dependence is found to be in good agreement with that measured at lower q, suggesting that the broadening of the Brillouin peak is mainly due to a dynamic attenuation mechanism. The comparison of the present data with those obtained by inelastic x-ray and visible scattering indicates the existence of a crossover among different attenuation mechanisms, whose nature is briefly discussed.",

author = "P. Benassi and S. Caponi and R. Eramo and A. Fontana and A. Giugni and M. Nardone and M. Sampoli and G. Viliani",

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T1 - Sound attenuation in a unexplored frequency region

T2 - Brillouin ultraviolet light scattering measurements in v-Si O2

AU - Benassi, P.

AU - Caponi, S.

AU - Eramo, R.

AU - Fontana, A.

AU - Giugni, A.

AU - Nardone, M.

AU - Sampoli, M.

AU - Viliani, G.

PY - 2005

Y1 - 2005

N2 - We report ultraviolet Brillouin light-scattering experimental data on v-Si O2 in an unexplored frequency region, performed with a newly available spectrometer, up to exchanged wave vector q values of 0.075 nm-1, at different temperatures. The measured attenuation follows a q2 law and is temperature dependent. Such temperature dependence is found to be in good agreement with that measured at lower q, suggesting that the broadening of the Brillouin peak is mainly due to a dynamic attenuation mechanism. The comparison of the present data with those obtained by inelastic x-ray and visible scattering indicates the existence of a crossover among different attenuation mechanisms, whose nature is briefly discussed.

AB - We report ultraviolet Brillouin light-scattering experimental data on v-Si O2 in an unexplored frequency region, performed with a newly available spectrometer, up to exchanged wave vector q values of 0.075 nm-1, at different temperatures. The measured attenuation follows a q2 law and is temperature dependent. Such temperature dependence is found to be in good agreement with that measured at lower q, suggesting that the broadening of the Brillouin peak is mainly due to a dynamic attenuation mechanism. The comparison of the present data with those obtained by inelastic x-ray and visible scattering indicates the existence of a crossover among different attenuation mechanisms, whose nature is briefly discussed.

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DO - 10.1103/PhysRevB.71.172201

M3 - Article

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VL - 71

JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 17

M1 - 172201

ER -

Sound attenuation in a unexplored frequency region: Brillouin ultraviolet light scattering measurements in v-Si O2

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