Title :
Understanding, modeling and optimizing vacancy engineering for stable highly boron-doped ultrashallow junctions
Author :
Cowern, N.E.B. ; Smith, A.J. ; Colombeau, B. ; Gwilliam, R. ; Sealy, B.J. ; Collart, E.J.H.
Author_Institution :
Adv. Technol. Inst., Surrey Univ.
Abstract :
This work presents breakthrough results on the physics, modeling and application of ion-implanted vacancies for high-performance B-doped ultrashallow junctions. We demonstrate for the first time electrically active B concentrations approaching 1021/cm3, achieved by low-temperature annealing, without preamorphisation. Source/drain (S/D) junctions formed by advanced vacancy engineering implants (VEI) are activated far above solubility, are stable with respect to deactivation, and are practically diffusionless. Furthermore sheet resistance Rs is predicted to stay almost constant with decreasing junction depth Xj outperforming other S/D engineering approaches beyond the 45 nm node
Keywords :
annealing; boron; cryogenic electronics; ion implantation; semiconductor device models; semiconductor doping; semiconductor junctions; 45 nm; ion implanted vacancies; low temperature annealing; sheet resistance; source/drain junctions; ultrashallow junctions; vacancy engineering; Implants; Isolation technology; Manufacturing industries; Power engineering and energy; Pulp manufacturing; Semiconductor device manufacture; Substrates; Temperature; Virtual manufacturing; Wood industry;
Conference_Titel :
Electron Devices Meeting, 2005. IEDM Technical Digest. IEEE International
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-9268-X
DOI :
10.1109/IEDM.2005.1609523
