Ge0.83Sn0.17 P-Channel Metal-Oxide-Semiconductor Field- Effect Transistors: Impact of Sulfur Passivation on Gate Stack Quality-Reference-Cited by-同舟云学术

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Ge0.83Sn0.17 P-Channel Metal-Oxide-Semiconductor Field- Effect Transistors: Impact of Sulfur Passivation on Gate Stack Quality

Published:2018-07-18 Issue: Volume: Page:
ISSN:
Container-title:Design, Simulation and Construction of Field Effect Transistors
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Author:

Lei Dian,Gong Xiao

Publisher

InTech

Link

http://www.intechopen.com/download/pdf/59661

Reference54 articles.

1. Pillarisetty R. Academic and industry research progress in germanium nanodevices. Nature. 2011;479(7373):324-328

2. Pillarisetty R, Chu-Kung B, Corcoran S, Dewey G, Kavalieros J, Kennel H, Kotlyar R, Le V, Lionberger D, Metz M, Mukherjee N, Nah J, Rachmady W, Radosavljevic M, Shah U, Taft S, Then H, Zelick N, Chau R. High mobility strained germanium quantum well field effect transistor as the p-channel device option for low power (Vcc = 0.5 V) III-V CMOS architecture. IEEE IEDM Technical Digest. 2010:150-153

3. Mitard J, Jaeger BD, Leys FE, Hellings G, Martens K, Eneman G, Brunco DP, Loo R, Lin JC, Shamiryan D, Vandeweyer T, Winderickx G, Vrancken E, Yu CH, Meyer KD, Caymax M, Pantisano L, Meuris M, Heyns MM. Record ION/IOFF performance for 65nm Ge pMOSFET and novel Si passivation scheme for improved EOT scalability. IEEE IEDM Technical Digest. 2008:873-876

4. Weber O, Bogumilowicz Y, Ernst T, Hartmann JM, Ducroquet F, Andrieu F, Dupre C, Clavelier L, Royer CL, Cherkashin N, Hytch M, Rouchon D, Dansas H, Papon AM, Carron V, Tabone C, Deleonibus S. Strained Si and Ge MOSFETs with high-k/metal gate stack for high mobility dual channel CMOS. IEEE IEDM Technical Digest. 2005:137-140

5. Xie R, Phung TH, He W, Sun Z, Yu M, Cheng Z, Zhu C. High mobility high-k/Ge PMOSFETs with 1 nm EOT-new concept on interface engineering and interface characterization. IEEE IEDM Technical Digest. 2008:393-396

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