TCAD Strain Calibration Versus Nanobeam Diffraction of Source/Drain Stressors for Ge MOSFETs

TCAD Strain Calibration Versus Nanobeam Diffraction of Source/Drain Stressors for Ge MOSFETs

TCAD finite-element process simulations have been performed on Ge-channel n and pMOSFETs with embedded source/drain stressors or a strained Ge channel on a relaxed SiGe strain relaxed buffer (SRB), respectively, and compared with nanobeam diffraction strain measurements. While there is overall a goo...

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Veröffentlicht in:IEEE transactions on electron devices 2015-04, Vol.62 (4), p.1079-1084
Hauptverfasser: Buhler, Rudolf Theoderich, Eneman, Geert, Favia, Paola, Witters, Liesbeth Johanna, Vincent, Benjamin, Hikavyy, Andriy, Loo, Roger, Bender, Hugo, Collaert, Nadine, Simoen, Eddy, Martino, Joao Antonio, Claeys, Cor
Format: Artikel
Sprache:eng
Schlagworte:
Epitaxial growth
Ge channel
Logic gates
MOSFET
nanobeam diffraction (NBD)
Silicon
Strain
Stress
TCAD
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Zusammenfassung:TCAD finite-element process simulations have been performed on Ge-channel n and pMOSFETs with embedded source/drain stressors or a strained Ge channel on a relaxed SiGe strain relaxed buffer (SRB), respectively, and compared with nanobeam diffraction strain measurements. While there is overall a good agreement between the simulated and experimental strain profiles, some deviations may occur, due to the presence of extended defects in the strain relaxed Ge buffer layers. This highlights the importance of selection of a strain-free reference in the relaxed Ge or SiGe SRB.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2015.2397441