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Unified model of hole trapping, 1/f noise, and thermally stimulated current in MOS devices

Capture cross-section data from the literature and recent density-functional theory (DFT) calculations strongly suggest that the 1/f noise of MOS devices is caused by the thermally activated capture and emission of carriers at O vacancy centers near the Si-SiO/sub 2/ interface. At least two kinds of...

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Bibliographic Details
Published in:IEEE transactions on nuclear science 2002-12, Vol.49 (6), p.2674-2683
Main Authors: Fleetwood, D.M., Xiong, H.D., Lu, Z.-Y., Nicklaw, C.J., Felix, J.A., Schrimpf, R.D., Pantelides, S.T.
Format: Article
Language:English
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Summary:Capture cross-section data from the literature and recent density-functional theory (DFT) calculations strongly suggest that the 1/f noise of MOS devices is caused by the thermally activated capture and emission of carriers at O vacancy centers near the Si-SiO/sub 2/ interface. At least two kinds of defects can contribute to the noise of unirradiated and irradiated devices. The first is a "dimer" vacancy associated with the E/sub /spl delta//' center, which is shown by DFT to be a metastable electron trap when the Si-Si spacing is stretched beyond its equilibrium value, as likely can occur in strained SiO/sub 2/ near the Si-SiO/sub 2/ interface. The second is a neutral or positively charged E/spl gamma/' center, which has two configurations. One is puckered (one of the Si atoms relaxes through its local bonding plane) and forms a dipole after electron capture (E(/spl gamma//sup 4/)'). The other is shown via DFT to be a different kind of puckered configuration, including a fivefold coordinated Si (E(/spl gamma//sup 5/)'); this does not form a dipole. These results strongly suggest a common model of charge exchange with O vacancies can account for much of the oxide-trap charge and 1/f noise in MOS devices. Applying this model to thermally stimulated current (TSC) experiments suggests hole emission in TSC may well be due to the thermal relaxation of a puckered E/spl gamma/' into a dimer E/sub /spl delta//'. This can explain literature discrepancies between optical and thermal estimates of trapped-hole energies.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2002.805407