Physical and electrical characteristics of AlGaN/GaN metal-oxide- semiconductor high-electron-mobility transistors with rare earth Er 2O3 as a gate dielectric

Ray Ming Lin; Fu Chuan Chu; Atanu Das; Sheng Yu Liao; Shu Tsun Chou; Liann Be Chang

doi:10.1016/j.tsf.2013.01.028

Physical and electrical characteristics of AlGaN/GaN metal-oxide- semiconductor high-electron-mobility transistors with rare earth Er ₂O₃ as a gate dielectric

Ray Ming Lin^*, Fu Chuan Chu, Atanu Das, Sheng Yu Liao, Shu Tsun Chou, Liann Be Chang

^*Corresponding author for this work

Chang Gung University

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

13 Scopus citations

Abstract

In this study, the rare earth erbium oxide (Er₂O₃) was deposited using an electron beam onto an AlGaN/GaN heterostructure to fabricate metal-oxide-semiconductor high-electron-mobility transistors (MOS-HEMTs) that exhibited device performance superior to that of a conventional HEMT. Under similar bias conditions, the gate leakage currents of these MOS-HEMT devices were four orders of magnitude lower than those of conventional Schottky gate HEMTs. The measured sub-threshold swing (SS) and the effective trap state density (N_t) of the MOS-HEMT were 125 mV/decade and 4.3×10¹² cm^-2, respectively. The dielectric constant of the Er₂O₃ layer in this study was 14, as determined through capacitance-voltage measurements. In addition, the gate-source reverse breakdown voltage increased from -166 V for the conventional HEMT to -196 V for the Er₂O₃ MOS-HEMT.

Original language	English
Pages (from-to)	526-529
Number of pages	4
Journal	Thin Solid Films
Volume	544
DOIs	https://doi.org/10.1016/j.tsf.2013.01.028
State	Published - 01 10 2013

Keywords

Erbium oxide
GaN
High-k
MOS-HEMT

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title = "Physical and electrical characteristics of AlGaN/GaN metal-oxide- semiconductor high-electron-mobility transistors with rare earth Er 2O3 as a gate dielectric",

abstract = "In this study, the rare earth erbium oxide (Er2O3) was deposited using an electron beam onto an AlGaN/GaN heterostructure to fabricate metal-oxide-semiconductor high-electron-mobility transistors (MOS-HEMTs) that exhibited device performance superior to that of a conventional HEMT. Under similar bias conditions, the gate leakage currents of these MOS-HEMT devices were four orders of magnitude lower than those of conventional Schottky gate HEMTs. The measured sub-threshold swing (SS) and the effective trap state density (Nt) of the MOS-HEMT were 125 mV/decade and 4.3×1012 cm-2, respectively. The dielectric constant of the Er2O3 layer in this study was 14, as determined through capacitance-voltage measurements. In addition, the gate-source reverse breakdown voltage increased from -166 V for the conventional HEMT to -196 V for the Er2O3 MOS-HEMT.",

keywords = "Erbium oxide, GaN, High-k, MOS-HEMT",

author = "Lin, {Ray Ming} and Chu, {Fu Chuan} and Atanu Das and Liao, {Sheng Yu} and Chou, {Shu Tsun} and Chang, {Liann Be}",

year = "2013",

month = oct,

day = "1",

doi = "10.1016/j.tsf.2013.01.028",

language = "英语",

volume = "544",

pages = "526--529",

journal = "Thin Solid Films",

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T1 - Physical and electrical characteristics of AlGaN/GaN metal-oxide- semiconductor high-electron-mobility transistors with rare earth Er 2O3 as a gate dielectric

AU - Lin, Ray Ming

AU - Chu, Fu Chuan

AU - Das, Atanu

AU - Liao, Sheng Yu

AU - Chou, Shu Tsun

AU - Chang, Liann Be

PY - 2013/10/1

Y1 - 2013/10/1

N2 - In this study, the rare earth erbium oxide (Er2O3) was deposited using an electron beam onto an AlGaN/GaN heterostructure to fabricate metal-oxide-semiconductor high-electron-mobility transistors (MOS-HEMTs) that exhibited device performance superior to that of a conventional HEMT. Under similar bias conditions, the gate leakage currents of these MOS-HEMT devices were four orders of magnitude lower than those of conventional Schottky gate HEMTs. The measured sub-threshold swing (SS) and the effective trap state density (Nt) of the MOS-HEMT were 125 mV/decade and 4.3×1012 cm-2, respectively. The dielectric constant of the Er2O3 layer in this study was 14, as determined through capacitance-voltage measurements. In addition, the gate-source reverse breakdown voltage increased from -166 V for the conventional HEMT to -196 V for the Er2O3 MOS-HEMT.

AB - In this study, the rare earth erbium oxide (Er2O3) was deposited using an electron beam onto an AlGaN/GaN heterostructure to fabricate metal-oxide-semiconductor high-electron-mobility transistors (MOS-HEMTs) that exhibited device performance superior to that of a conventional HEMT. Under similar bias conditions, the gate leakage currents of these MOS-HEMT devices were four orders of magnitude lower than those of conventional Schottky gate HEMTs. The measured sub-threshold swing (SS) and the effective trap state density (Nt) of the MOS-HEMT were 125 mV/decade and 4.3×1012 cm-2, respectively. The dielectric constant of the Er2O3 layer in this study was 14, as determined through capacitance-voltage measurements. In addition, the gate-source reverse breakdown voltage increased from -166 V for the conventional HEMT to -196 V for the Er2O3 MOS-HEMT.

KW - Erbium oxide

KW - GaN

KW - High-k

KW - MOS-HEMT

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U2 - 10.1016/j.tsf.2013.01.028

DO - 10.1016/j.tsf.2013.01.028

M3 - 文章

AN - SCOPUS:84901825187

SN - 0040-6090

VL - 544

SP - 526

EP - 529

JO - Thin Solid Films

JF - Thin Solid Films

ER -

Physical and electrical characteristics of AlGaN/GaN metal-oxide- semiconductor high-electron-mobility transistors with rare earth Er ₂O₃ as a gate dielectric

Abstract

Keywords

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