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Analysis of charge density and Fermi level of Al In Sb/In Sb single-gate high electron mobility transistor 被引量:1

Analysis of charge density and Fermi level of Al In Sb/In Sb single-gate high electron mobility transistor
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摘要 A compact model is proposed to derive the charge density of the AlInSb/InSb HEMT devices by con- sidering the variation of Fermi level, the first subband, the second subband and sheet carrier charge density with applied gate voltage. The proposed model considers the Fermi level dependence of charge density and vice versa. The analytical results generated by the proposed model are compared and they agree well with the experimental results. The developed model can be used to implement a physics based compact model for an InSb HEMT device in SPICE applications. A compact model is proposed to derive the charge density of the AlInSb/InSb HEMT devices by con- sidering the variation of Fermi level, the first subband, the second subband and sheet carrier charge density with applied gate voltage. The proposed model considers the Fermi level dependence of charge density and vice versa. The analytical results generated by the proposed model are compared and they agree well with the experimental results. The developed model can be used to implement a physics based compact model for an InSb HEMT device in SPICE applications.
作者 S.Theodore Chandra N.B.Balamurugan M.Bhuvaneswari N.Anbuselvan N.Mohankumar
机构地区 National Instruments Electronics Laboratory Department of ECE
出处 《Journal of Semiconductors》 EI CAS CSCD 2015年第6期47-52,共6页 半导体学报(英文版)
基金 Project supported by the Council of Scientific & Industrial Research(CSIR),India under the Senior Research Fellowship Scheme(No.08/237(0005)/2012-EMR-I)
关键词 charge density Fermi level high electron mobility transistor 2D analytical model charge density Fermi level high electron mobility transistor 2D analytical model
分类号 TN32 [电子电信—物理电子学] O441.1 [理学—电磁学]
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参考文献14

  • 1Chung S J, Dai N, Khodaparast G A, et al. Electronic charac- terization of InSb quantum wells. Physica E: Low-Dimensional Systems and Nanostructures, 2000, 7(3/4): 809.
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引证文献1

Journal of Semiconductors
2015年 第6期

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