Simulation of p-n junctions: Present and future challenges for technologies beyond 32 nm
- Pelaz, Lourdes 1
- Marqués, Luis A. 1
- Aboy, María 1
- Santos, Iván 1
- López, Pedro 1
- Duffy, Ray 1
-
1
Universidad de Valladolid
info
ISSN: 2166-2746, 2166-2754
Ano de publicación: 2010
Volume: 28
Número: 1
Páxinas: C1A1-C1A6
Tipo: Artigo
Outras publicacións en: Journal of Vacuum Science & Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena
Resumo
Ion implantation continues being the dominant technique to introduce dopants in Si devices. With the device feature size in the nanometer scale, the accurate and detailed description of as-implanted dopant and damage profiles is becoming key as advanced annealing techniques are almost diffusionless. The demanding requirements for ultrashallow junction formation are stimulating the development of improved and detailed models for molecular implants and for the kinetics of amorphous damage. Additional challenges arise in the doping of advanced architectures, such as fin field effect transistors, because the introduction of highly tilted ions is quite inefficient and, in addition, the regrowth of amorphous regions in narrow structures is hampered by the slow regrowth at free interfaces and {111} planes. Atomistic simulations play a relevant role to provide the understanding for the development of simplified physically based models computationally more efficient.
Información de financiamento
Project No. TEC2008-06069 and by Junta de Castilla y León under Project No. VA011A09Financiadores
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Junta de Castilla y León
Spain
- VA011A09
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