Characteristics of a sulfur-passivated InGaPInGaAsGaAs heterostructure field-effect transistor

Po Hsien Lai; Ssu I. Fu; Yan Ying Tsai; Chih Hung Yen; Shiou Ying Cheng; Wen Chau Liu

doi:10.1063/1.2032599

Characteristics of a sulfur-passivated InGaPInGaAsGaAs heterostructure field-effect transistor

Po Hsien Lai, Ssu I. Fu, Yan Ying Tsai, Chih Hung Yen, Shiou Ying Cheng, Wen Chau Liu

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

9 Citations (Scopus)

Abstract

The effect of (NH4) 2 Sx treatment on the device characteristics of an InGaPInGaAsGaAs heterostructure field-effect transistor are studied and demonstrated. Experimentally, it is found that the sulfur-passivated device shows significant dc characteristics including higher forward voltage, lower leakage current, lower output conductance, and higher voltage gain. The superior microwave performances with flat and wide operating region of drain saturation current are simultaneously obtained. Furthermore, the improved thermal stabilities over wide temperature range of sulfur-passivated devices are attained. Based on these advantages, the studied device with (NH4) 2 Sx treatment shows the promise for high-temperature and high-performance microwave applications.

Original language	English
Article number	083502
Journal	Applied Physics Letters
Volume	87
Issue number	8
DOIs	https://doi.org/10.1063/1.2032599
Publication status	Published - 2005 Aug 22

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/1.2032599

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title = "Characteristics of a sulfur-passivated InGaPInGaAsGaAs heterostructure field-effect transistor",

abstract = "The effect of (NH4) 2 Sx treatment on the device characteristics of an InGaPInGaAsGaAs heterostructure field-effect transistor are studied and demonstrated. Experimentally, it is found that the sulfur-passivated device shows significant dc characteristics including higher forward voltage, lower leakage current, lower output conductance, and higher voltage gain. The superior microwave performances with flat and wide operating region of drain saturation current are simultaneously obtained. Furthermore, the improved thermal stabilities over wide temperature range of sulfur-passivated devices are attained. Based on these advantages, the studied device with (NH4) 2 Sx treatment shows the promise for high-temperature and high-performance microwave applications.",

author = "Lai, {Po Hsien} and Fu, {Ssu I.} and Tsai, {Yan Ying} and Yen, {Chih Hung} and Cheng, {Shiou Ying} and Liu, {Wen Chau}",

year = "2005",

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doi = "10.1063/1.2032599",

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volume = "87",

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T1 - Characteristics of a sulfur-passivated InGaPInGaAsGaAs heterostructure field-effect transistor

AU - Lai, Po Hsien

AU - Fu, Ssu I.

AU - Tsai, Yan Ying

AU - Yen, Chih Hung

AU - Cheng, Shiou Ying

AU - Liu, Wen Chau

PY - 2005/8/22

Y1 - 2005/8/22

N2 - The effect of (NH4) 2 Sx treatment on the device characteristics of an InGaPInGaAsGaAs heterostructure field-effect transistor are studied and demonstrated. Experimentally, it is found that the sulfur-passivated device shows significant dc characteristics including higher forward voltage, lower leakage current, lower output conductance, and higher voltage gain. The superior microwave performances with flat and wide operating region of drain saturation current are simultaneously obtained. Furthermore, the improved thermal stabilities over wide temperature range of sulfur-passivated devices are attained. Based on these advantages, the studied device with (NH4) 2 Sx treatment shows the promise for high-temperature and high-performance microwave applications.

AB - The effect of (NH4) 2 Sx treatment on the device characteristics of an InGaPInGaAsGaAs heterostructure field-effect transistor are studied and demonstrated. Experimentally, it is found that the sulfur-passivated device shows significant dc characteristics including higher forward voltage, lower leakage current, lower output conductance, and higher voltage gain. The superior microwave performances with flat and wide operating region of drain saturation current are simultaneously obtained. Furthermore, the improved thermal stabilities over wide temperature range of sulfur-passivated devices are attained. Based on these advantages, the studied device with (NH4) 2 Sx treatment shows the promise for high-temperature and high-performance microwave applications.

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Characteristics of a sulfur-passivated InGaPInGaAsGaAs heterostructure field-effect transistor

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