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Properties and benefits of fluorine in silicon and silicon-germanium devices

Properties and benefits of fluorine in silicon and silicon-germanium devices
Properties and benefits of fluorine in silicon and silicon-germanium devices
This paper reviews the behaviour of fluorine in silicon and silicon-germanium devices. Fluorine is shown to have many beneficial effects in polysilicon emitter bipolar transistors, including higher values of gain, lower emitter resistance, lower 1/f noise and more ideal base characteristics. These results are explained by passivation of trapping states at the polysilicon/silicon interface and accelerated break-up of the interfacial oxide layer. Fluorine is also shown to be extremely effective at suppressing the diffusion of boron, completely suppressing boron transient enhanced diffusion and significantly reducing boron thermal diffusion. The boron thermal diffusion suppression correlates with the appearance of a fluorine peak on the SIMS profile at approximately half the projected range of the fluorine implant, which is attributed to vacancy-fluorine clusters. When applied to bipolar technology, fluorine implantation leads to a record fT of 110 GHz in a silicon bipolar transistor.
3-9
Ashburn, P.
68cef6b7-205b-47aa-9efb-f1f09f5c1038
El Mubarek, H.A.W.
08195505-5e00-40a6-bc9f-ebbf2a2fbf63
Ashburn, P.
68cef6b7-205b-47aa-9efb-f1f09f5c1038
El Mubarek, H.A.W.
08195505-5e00-40a6-bc9f-ebbf2a2fbf63

Ashburn, P. and El Mubarek, H.A.W. (2007) Properties and benefits of fluorine in silicon and silicon-germanium devices. Journal of Telecommunications and Information Technology, 2, 3-9.

Record type: Article

Abstract

This paper reviews the behaviour of fluorine in silicon and silicon-germanium devices. Fluorine is shown to have many beneficial effects in polysilicon emitter bipolar transistors, including higher values of gain, lower emitter resistance, lower 1/f noise and more ideal base characteristics. These results are explained by passivation of trapping states at the polysilicon/silicon interface and accelerated break-up of the interfacial oxide layer. Fluorine is also shown to be extremely effective at suppressing the diffusion of boron, completely suppressing boron transient enhanced diffusion and significantly reducing boron thermal diffusion. The boron thermal diffusion suppression correlates with the appearance of a fluorine peak on the SIMS profile at approximately half the projected range of the fluorine implant, which is attributed to vacancy-fluorine clusters. When applied to bipolar technology, fluorine implantation leads to a record fT of 110 GHz in a silicon bipolar transistor.

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More information

Published date: February 2007
Organisations: Nanoelectronics and Nanotechnology

Identifiers

Local EPrints ID: 264346
URI: http://eprints.soton.ac.uk/id/eprint/264346
PURE UUID: b32ced4e-379d-49b1-83b7-f81681ca7f1e

Catalogue record

Date deposited: 26 Jul 2007
Last modified: 10 Dec 2021 21:45

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Contributors

Author: P. Ashburn
Author: H.A.W. El Mubarek

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