Study on physical model for strained Si MOSFET with hetero-polycrystalline SiGe gate

Wang Bin; Zhang He-Ming; Hu Hui-Yong; Zhang Yu-Ming; Song Jian-Jun; Zhou Chun-Yu; Li Yu-Chen

doi:10.7498/aps.62.218502

Abstract

A new strained Si MOSFET structure with hetero-polycrystalline SiGe gate was studied, which combines the advantages of “gate engineering” and “strain engineering”. The new structure improved the carrier transport efficiency, suppressed the short-channel effects (SCE), and enhanced the performance on the basis of strain. Then a physically modeling strategy such as quasi-2D surface potential of strong inversion, threshold voltage, and channel current was presented for the strained Si NMOSFET. Finally, the above model was computed and the results were analyzed.

Keywords:

Authors and contacts

1.
Key Laboratory for Wide Band-Gap Semiconductor Materials and Devices, School of Microelectronics, Xidian University, Xi’an 710071, China
Funds: Project supported by the NLAIC Research Fund (Grant No. P140c090303110c0904), the Research Fund for the Doctoral Program of Higher Education of China (Grant No. JY0300122503), and the Fundamental Research Funds for the Central Universities of China (Grant Nos. K5051225014, K5051225004).

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Cited By

[1]	Song J J, Zhang H M, Dai X Y, Hu H Y, Xuan R X 2008 Acta Phys. Sin. 57 5918 (in Chinese) [宋建军, 张鹤鸣, 戴显英, 胡辉勇, 宣荣喜 2008 物理学报 57 5918]
[2]	Wang B, Zhang H M, Hu H Y, Zhang Y M, Shu B, Zhou C Y, Li Y C, L Y 2013 Acta Phys. Sin. 62 057103 (in Chinese) [王斌, 张鹤鸣, 胡辉勇, 张玉明, 舒斌, 周春宇, 李妤晨, 吕懿 2013 物理学报 62 057013]
[3]	Qin S S, Zhang H M, Hu H Y, Dai X Y, Xuan R X, Shu B 2010 Chin. Phys. B 19 117309
[4]	Wang B, Zhang H M, Hu H Y, Zhang Y M, Zhou C Y, Wang G Y, Li Y C 2013 Chin. Phys. B 22 028503
[5]	Long W, Ou H J, Kuo J M, Chin K K 1999 IEEE Trans. on Electron Devices 46 865
[6]	Zhou X 2000 IEEE Trans. on Electron Devices 47 113
[7]	Ponomarev Y V, Stolk P A 2000 IEEE Trans. on Electron Devices 47 848
[8]	Afzali-Kusha A, Hashemi P, Behnam A, Fathi E, Nokalii M E 2005 Solid-State Electronics 49 1341
[9]	Baishya S, Mallik A, Sarkar C K 2007 IEEE Trans. on Electron Devices 54 2520
[10]	Samena R S, Kumar M J 2009 IEEE Trans. on Electron Devices 56 517
[11]	Wong D M, Tarr N G 2000 Vac. Sci. Technol. A 18 783
[12]	Li J, Liu H X, Yuan B, Cao L, Li B 2011 J. Semicond. 32 044005
[13]	Nayfeh H M, Hoyt J L, Dimitri A A 2004 IEEE Trans. on Electron Devices 51 2069
[14]	Price P J 1988 J. Appl. Phys. 63 4718
[15]	Rim K, Hoyt J L, Gibbons J F 2000 IEEE Trans. on Electron Devices 47 1406
[16]	Ismail K, Nelson S F 1993 Appl. Phys. Let. 63 660
[17]	Roldán J B, Gámiz F, López V 1997 IEEE Trans. on Electron Devices 44 841
[18]	Sehgal A, Mangla T, Gupta M, Gupta R S 2008 Thin Solid Films 516 2162
[19]	Zhang Z F, Zhang H M, Hu H Y, Xuan R X, Song J J 2009 Acta Phys. Sin. 58 4948 (in Chinese) [张志锋, 张鹤鸣, 胡辉勇, 宣荣喜, 宋建军 2009 物理学报 58 4948]

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Catalog

Vol. 62, Issue 21 - 2013-11-05

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