Photoluminescence and capacitance transients in highly Mg-doped GaN

L. Lu; C. L. Yang; H. Yan; H. Yang; Z. Wang; J. Wang; W. Ge

doi:10.1007/s003390100998

Photoluminescence and capacitance transients in highly Mg-doped GaN

L. Lu^*, C. L. Yang, H. Yan, H. Yang, Z. Wang, J. Wang, W. Ge

^*Corresponding author for this work

Department of Physics

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

Abstract

Behaviors of the photoluminescence blue-band and near-bandgap peak and the relevant thermal ionization energies of the shallow and deep Mg-related acceptors have been studied, respectively. The 2.989 eV blue-band is attributed to the deep donor-acceptor-pair transitions involving a deep Mg-related acceptor at E_v+0.427 eV. The blueshift with increasing excitation power is explained by variation in the contribution of close and distant donor-acceptor-pairs to the luminescence. The redshift with increasing temperature results from thermal release of carriers from close donor-acceptor-pairs. The 3.26 eV near-bandgap peak is attributed to the shallow donor-acceptor-pair transitions involving a shallow Mg-related acceptor at E_v+0.223 eV. The relevant thermal ionization energies of the shallow and deep Mg-related acceptors, being about E_v+0.16 and E_v+0.50eV, are determined from deep-level transient Fourier spectroscopy measurements.

Original language	English
Pages (from-to)	441-444
Number of pages	4
Journal	Applied Physics A: Materials Science and Processing
Volume	75
Issue number	3
DOIs	https://doi.org/10.1007/s003390100998
Publication status	Published - Sept 2002

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title = "Photoluminescence and capacitance transients in highly Mg-doped GaN",

abstract = "Behaviors of the photoluminescence blue-band and near-bandgap peak and the relevant thermal ionization energies of the shallow and deep Mg-related acceptors have been studied, respectively. The 2.989 eV blue-band is attributed to the deep donor-acceptor-pair transitions involving a deep Mg-related acceptor at Ev+0.427 eV. The blueshift with increasing excitation power is explained by variation in the contribution of close and distant donor-acceptor-pairs to the luminescence. The redshift with increasing temperature results from thermal release of carriers from close donor-acceptor-pairs. The 3.26 eV near-bandgap peak is attributed to the shallow donor-acceptor-pair transitions involving a shallow Mg-related acceptor at Ev+0.223 eV. The relevant thermal ionization energies of the shallow and deep Mg-related acceptors, being about Ev+0.16 and Ev+0.50eV, are determined from deep-level transient Fourier spectroscopy measurements.",

author = "L. Lu and Yang, \{C. L.\} and H. Yan and H. Yang and Z. Wang and J. Wang and W. Ge",

year = "2002",

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TY - JOUR

T1 - Photoluminescence and capacitance transients in highly Mg-doped GaN

AU - Lu, L.

AU - Yang, C. L.

AU - Yan, H.

AU - Yang, H.

AU - Wang, Z.

AU - Wang, J.

AU - Ge, W.

PY - 2002/9

Y1 - 2002/9

N2 - Behaviors of the photoluminescence blue-band and near-bandgap peak and the relevant thermal ionization energies of the shallow and deep Mg-related acceptors have been studied, respectively. The 2.989 eV blue-band is attributed to the deep donor-acceptor-pair transitions involving a deep Mg-related acceptor at Ev+0.427 eV. The blueshift with increasing excitation power is explained by variation in the contribution of close and distant donor-acceptor-pairs to the luminescence. The redshift with increasing temperature results from thermal release of carriers from close donor-acceptor-pairs. The 3.26 eV near-bandgap peak is attributed to the shallow donor-acceptor-pair transitions involving a shallow Mg-related acceptor at Ev+0.223 eV. The relevant thermal ionization energies of the shallow and deep Mg-related acceptors, being about Ev+0.16 and Ev+0.50eV, are determined from deep-level transient Fourier spectroscopy measurements.

AB - Behaviors of the photoluminescence blue-band and near-bandgap peak and the relevant thermal ionization energies of the shallow and deep Mg-related acceptors have been studied, respectively. The 2.989 eV blue-band is attributed to the deep donor-acceptor-pair transitions involving a deep Mg-related acceptor at Ev+0.427 eV. The blueshift with increasing excitation power is explained by variation in the contribution of close and distant donor-acceptor-pairs to the luminescence. The redshift with increasing temperature results from thermal release of carriers from close donor-acceptor-pairs. The 3.26 eV near-bandgap peak is attributed to the shallow donor-acceptor-pair transitions involving a shallow Mg-related acceptor at Ev+0.223 eV. The relevant thermal ionization energies of the shallow and deep Mg-related acceptors, being about Ev+0.16 and Ev+0.50eV, are determined from deep-level transient Fourier spectroscopy measurements.

UR - https://www.webofscience.com/wos/woscc/full-record/WOS:000176128800016

UR - https://openalex.org/W1985091261

UR - https://www.scopus.com/pages/publications/0036722430

U2 - 10.1007/s003390100998

DO - 10.1007/s003390100998

M3 - Journal Article

SN - 0947-8396

VL - 75

SP - 441

EP - 444

JO - Applied Physics A: Materials Science and Processing

JF - Applied Physics A: Materials Science and Processing

IS - 3

ER -

Photoluminescence and capacitance transients in highly Mg-doped GaN

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