Effects of high-resistivity, low-temperature layer in transient capacitance measurements of GaAs n-i-p structures

Jenn Fang Chen; Pai Yong Wang; Nie Chuan Chen

doi:10.1143/jjap.37.l1238

Effects of high-resistivity, low-temperature layer in transient capacitance measurements of GaAs n-i-p structures

Jenn Fang Chen^*, Pai Yong Wang, Nie Chuan Chen

^*Corresponding author for this work

National Yang Ming Chiao Tung University

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

3 Scopus citations

Abstract

Deep-level transient spectroscopy and transient capacitance measurements are performed on a molecular-beam-epitaxially grown GaAs n-i-p diode with a 2000-Å-thick low-temperature (LT)-grown layer immersed in its intrinsic region. The transient capacitance measurements reveal that the time constant and activation energy are the same for both the emission and capture processes. An equivalent circuit based on capacitance-frequency spectra is derived and used to obtain the resistivity values of the LT layer that are in agreement with experimental results. It is concluded that the transient capacitance observed corresponds to the resistance-capacitance time constant due to the LT-layer. In addition, the value of the activation energy is explained based on the equivalent circuit.

Original language	English
Pages (from-to)	L1238-L1240
Journal	Japanese Journal of Applied Physics
Volume	37
Issue number	10 SUPPL. B
DOIs	https://doi.org/10.1143/jjap.37.l1238
State	Published - 15 10 1998
Externally published	Yes

Keywords

Deep levels
Deep-level transient spectroscopy
Low-temperature GaAs
Transient capacitance

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10.1143/jjap.37.l1238

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title = "Effects of high-resistivity, low-temperature layer in transient capacitance measurements of GaAs n-i-p structures",

abstract = "Deep-level transient spectroscopy and transient capacitance measurements are performed on a molecular-beam-epitaxially grown GaAs n-i-p diode with a 2000-{\AA}-thick low-temperature (LT)-grown layer immersed in its intrinsic region. The transient capacitance measurements reveal that the time constant and activation energy are the same for both the emission and capture processes. An equivalent circuit based on capacitance-frequency spectra is derived and used to obtain the resistivity values of the LT layer that are in agreement with experimental results. It is concluded that the transient capacitance observed corresponds to the resistance-capacitance time constant due to the LT-layer. In addition, the value of the activation energy is explained based on the equivalent circuit.",

keywords = "Deep levels, Deep-level transient spectroscopy, Low-temperature GaAs, Transient capacitance",

author = "Chen, {Jenn Fang} and Wang, {Pai Yong} and Chen, {Nie Chuan}",

year = "1998",

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doi = "10.1143/jjap.37.l1238",

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TY - JOUR

T1 - Effects of high-resistivity, low-temperature layer in transient capacitance measurements of GaAs n-i-p structures

AU - Chen, Jenn Fang

AU - Wang, Pai Yong

AU - Chen, Nie Chuan

PY - 1998/10/15

Y1 - 1998/10/15

N2 - Deep-level transient spectroscopy and transient capacitance measurements are performed on a molecular-beam-epitaxially grown GaAs n-i-p diode with a 2000-Å-thick low-temperature (LT)-grown layer immersed in its intrinsic region. The transient capacitance measurements reveal that the time constant and activation energy are the same for both the emission and capture processes. An equivalent circuit based on capacitance-frequency spectra is derived and used to obtain the resistivity values of the LT layer that are in agreement with experimental results. It is concluded that the transient capacitance observed corresponds to the resistance-capacitance time constant due to the LT-layer. In addition, the value of the activation energy is explained based on the equivalent circuit.

AB - Deep-level transient spectroscopy and transient capacitance measurements are performed on a molecular-beam-epitaxially grown GaAs n-i-p diode with a 2000-Å-thick low-temperature (LT)-grown layer immersed in its intrinsic region. The transient capacitance measurements reveal that the time constant and activation energy are the same for both the emission and capture processes. An equivalent circuit based on capacitance-frequency spectra is derived and used to obtain the resistivity values of the LT layer that are in agreement with experimental results. It is concluded that the transient capacitance observed corresponds to the resistance-capacitance time constant due to the LT-layer. In addition, the value of the activation energy is explained based on the equivalent circuit.

KW - Deep levels

KW - Deep-level transient spectroscopy

KW - Low-temperature GaAs

KW - Transient capacitance

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DO - 10.1143/jjap.37.l1238

M3 - 文章

AN - SCOPUS:0032182215

SN - 0021-4922

VL - 37

SP - L1238-L1240

JO - Japanese Journal of Applied Physics

JF - Japanese Journal of Applied Physics

IS - 10 SUPPL. B

ER -

Effects of high-resistivity, low-temperature layer in transient capacitance measurements of GaAs n-i-p structures

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