Laser-vibrometric ultrasonic characterization of resonant modes and quality factors of Ge membranes

Oksana Trushkevych; Vishal A. Shah; Maksym Myronov; John E. Halpin; Stephen D. Rhead; Martin J. Prest; David R. Leadley; Rachel S. Edwards

doi:10.1088/1468-6996/15/2/025004

Laser-vibrometric ultrasonic characterization of resonant modes and quality factors of Ge membranes

Oksana Trushkevych
, Vishal A. Shah
, Maksym Myronov
, John E. Halpin
, Stephen D. Rhead
, Martin J. Prest
, David R. Leadley
, Rachel S. Edwards

SAMS UHI

科研成果: Article › 同行评审

7 引用（Scopus）

摘要

The vibrations of a single-crystal germanium (Ge) membrane are studied in air and vacuum using laser vibrometry, in order to determine mechanical properties such as Q-factors, tensile stress, anisotropy, and robustness to shock. Resonance modes up to 3:2 are identified, giving a residual stress measurement of 0.22 GPa, consistent with the value obtained from x-ray relaxation studies. The membrane is found to be isotropic, with Q-factors ranging from around 40 at atmospheric pressure to over 3200 at 5 × 10 ^-4 mbar, significantly lower than those found in polycrystalline Ge micromechanical devices. The robustness to shock is explained through the high resonance mode frequencies and the dissipation mechanism into the substrate, which is a direct consequence of having a high quality film with low residual tensile stress, giving the potential for such films to be used in optoelectronic devices.

源语言	English
文章编号	025004
页数	13
期刊	Science and Technology of Advanced Materials
卷	15
期	2
DOI	https://doi.org/10.1088/1468-6996/15/2/025004
出版状态	Published - 7 4月 2014

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10.1088/1468-6996/15/2/025004许可: CC BY-NC-SA

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@article{43e4bf6442154668bede5ed7510b8951,

title = "Laser-vibrometric ultrasonic characterization of resonant modes and quality factors of Ge membranes",

abstract = "The vibrations of a single-crystal germanium (Ge) membrane are studied in air and vacuum using laser vibrometry, in order to determine mechanical properties such as Q-factors, tensile stress, anisotropy, and robustness to shock. Resonance modes up to 3:2 are identified, giving a residual stress measurement of 0.22 GPa, consistent with the value obtained from x-ray relaxation studies. The membrane is found to be isotropic, with Q-factors ranging from around 40 at atmospheric pressure to over 3200 at 5 × 10 -4 mbar, significantly lower than those found in polycrystalline Ge micromechanical devices. The robustness to shock is explained through the high resonance mode frequencies and the dissipation mechanism into the substrate, which is a direct consequence of having a high quality film with low residual tensile stress, giving the potential for such films to be used in optoelectronic devices.",

keywords = "elastic properties, laser interferometry, quality factor, single crystal Ge membrane",

author = "Oksana Trushkevych and Shah, \{Vishal A.\} and Maksym Myronov and Halpin, \{John E.\} and Rhead, \{Stephen D.\} and Prest, \{Martin J.\} and Leadley, \{David R.\} and Edwards, \{Rachel S.\}",

note = "{\textcopyright} 2014 National Institute for Materials Science The author was not affiliated to SAMS at the time of publication",

year = "2014",

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doi = "10.1088/1468-6996/15/2/025004",

language = "English",

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TY - JOUR

T1 - Laser-vibrometric ultrasonic characterization of resonant modes and quality factors of Ge membranes

AU - Trushkevych, Oksana

AU - Shah, Vishal A.

AU - Myronov, Maksym

AU - Halpin, John E.

AU - Rhead, Stephen D.

AU - Prest, Martin J.

AU - Leadley, David R.

AU - Edwards, Rachel S.

PY - 2014/4/7

Y1 - 2014/4/7

N2 - The vibrations of a single-crystal germanium (Ge) membrane are studied in air and vacuum using laser vibrometry, in order to determine mechanical properties such as Q-factors, tensile stress, anisotropy, and robustness to shock. Resonance modes up to 3:2 are identified, giving a residual stress measurement of 0.22 GPa, consistent with the value obtained from x-ray relaxation studies. The membrane is found to be isotropic, with Q-factors ranging from around 40 at atmospheric pressure to over 3200 at 5 × 10 -4 mbar, significantly lower than those found in polycrystalline Ge micromechanical devices. The robustness to shock is explained through the high resonance mode frequencies and the dissipation mechanism into the substrate, which is a direct consequence of having a high quality film with low residual tensile stress, giving the potential for such films to be used in optoelectronic devices.

AB - The vibrations of a single-crystal germanium (Ge) membrane are studied in air and vacuum using laser vibrometry, in order to determine mechanical properties such as Q-factors, tensile stress, anisotropy, and robustness to shock. Resonance modes up to 3:2 are identified, giving a residual stress measurement of 0.22 GPa, consistent with the value obtained from x-ray relaxation studies. The membrane is found to be isotropic, with Q-factors ranging from around 40 at atmospheric pressure to over 3200 at 5 × 10 -4 mbar, significantly lower than those found in polycrystalline Ge micromechanical devices. The robustness to shock is explained through the high resonance mode frequencies and the dissipation mechanism into the substrate, which is a direct consequence of having a high quality film with low residual tensile stress, giving the potential for such films to be used in optoelectronic devices.

KW - elastic properties

KW - laser interferometry

KW - quality factor

KW - single crystal Ge membrane

UR - https://www.scopus.com/pages/publications/84898680916

UR - https://www.scopus.com/pages/publications/84898680916#tab=citedBy

U2 - 10.1088/1468-6996/15/2/025004

DO - 10.1088/1468-6996/15/2/025004

M3 - Article

AN - SCOPUS:84898680916

SN - 1468-6996

VL - 15

JO - Science and Technology of Advanced Materials

JF - Science and Technology of Advanced Materials

IS - 2

M1 - 025004

ER -

Laser-vibrometric ultrasonic characterization of resonant modes and quality factors of Ge membranes

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