Narrow-band detection of propagating coherent acoustic phonons in piezoelectric InGaNGaN multiple-quantum wells

Cheng Ying Chen; Yu Chieh Wen; Hung Ping Chen; Tzu Ming Liu; Chang Chi Pan; Jen Inn Chyi; Chi Kuang Sun

doi:10.1063/1.2785126

Narrow-band detection of propagating coherent acoustic phonons in piezoelectric InGaNGaN multiple-quantum wells

Cheng Ying Chen, Yu Chieh Wen, Hung Ping Chen, Tzu Ming Liu, Chang Chi Pan, Jen Inn Chyi, Chi Kuang Sun

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

9 Scopus citations

Abstract

The authors demonstrated that the piezoelectric superlattice, can serve as narrow-band detectors for propagating coherent longitudinal acoustic phonons at multiple frequencies corresponding to the spatial frequency of the superlattice and its higher harmonics, and its detection bandwidth is determined by the total structure width. By optically exciting a broadband propagating longitudinal acoustic pulse from a thin Ni film, the authors studied the acoustic spectral sensitivity function of a ten-period In0.12 Ga0.88 NGaN multiple quantum well. Because the barriers (19 nm) and wells (3.6 nm) are of different widths, the second detection band, corresponding to the second harmonic of the fundamental frequency, can be resolved.

Original language	English
Article number	133101
Journal	Applied Physics Letters
Volume	91
Issue number	13
DOIs	https://doi.org/10.1063/1.2785126
State	Published - 2007

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title = "Narrow-band detection of propagating coherent acoustic phonons in piezoelectric InGaNGaN multiple-quantum wells",

abstract = "The authors demonstrated that the piezoelectric superlattice, can serve as narrow-band detectors for propagating coherent longitudinal acoustic phonons at multiple frequencies corresponding to the spatial frequency of the superlattice and its higher harmonics, and its detection bandwidth is determined by the total structure width. By optically exciting a broadband propagating longitudinal acoustic pulse from a thin Ni film, the authors studied the acoustic spectral sensitivity function of a ten-period In0.12 Ga0.88 NGaN multiple quantum well. Because the barriers (19 nm) and wells (3.6 nm) are of different widths, the second detection band, corresponding to the second harmonic of the fundamental frequency, can be resolved.",

author = "Chen, {Cheng Ying} and Wen, {Yu Chieh} and Chen, {Hung Ping} and Liu, {Tzu Ming} and Pan, {Chang Chi} and Chyi, {Jen Inn} and Sun, {Chi Kuang}",

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T1 - Narrow-band detection of propagating coherent acoustic phonons in piezoelectric InGaNGaN multiple-quantum wells

AU - Chen, Cheng Ying

AU - Wen, Yu Chieh

AU - Chen, Hung Ping

AU - Liu, Tzu Ming

AU - Pan, Chang Chi

AU - Chyi, Jen Inn

AU - Sun, Chi Kuang

N1 - Funding Information: This project is sponsored by National Science Council of Taiwan under NSC96-2120-M-002-014.

PY - 2007

Y1 - 2007

N2 - The authors demonstrated that the piezoelectric superlattice, can serve as narrow-band detectors for propagating coherent longitudinal acoustic phonons at multiple frequencies corresponding to the spatial frequency of the superlattice and its higher harmonics, and its detection bandwidth is determined by the total structure width. By optically exciting a broadband propagating longitudinal acoustic pulse from a thin Ni film, the authors studied the acoustic spectral sensitivity function of a ten-period In0.12 Ga0.88 NGaN multiple quantum well. Because the barriers (19 nm) and wells (3.6 nm) are of different widths, the second detection band, corresponding to the second harmonic of the fundamental frequency, can be resolved.

AB - The authors demonstrated that the piezoelectric superlattice, can serve as narrow-band detectors for propagating coherent longitudinal acoustic phonons at multiple frequencies corresponding to the spatial frequency of the superlattice and its higher harmonics, and its detection bandwidth is determined by the total structure width. By optically exciting a broadband propagating longitudinal acoustic pulse from a thin Ni film, the authors studied the acoustic spectral sensitivity function of a ten-period In0.12 Ga0.88 NGaN multiple quantum well. Because the barriers (19 nm) and wells (3.6 nm) are of different widths, the second detection band, corresponding to the second harmonic of the fundamental frequency, can be resolved.

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U2 - 10.1063/1.2785126

DO - 10.1063/1.2785126

M3 - 期刊論文

AN - SCOPUS:34848904156

SN - 0003-6951

VL - 91

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 13

M1 - 133101

ER -

Narrow-band detection of propagating coherent acoustic phonons in piezoelectric InGaNGaN multiple-quantum wells

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