Recrystallization and activation of ultra-high-dose phosphorus-implanted silicon using multi-pulse nanosecond laser annealing

Abstract: Highly phosphorus-doped silicon source/drains are investigated to improve the performance of N-type metal-oxide-semiconductor field-effect transistors by decreasing their resistance and imparting strain to their channels. To find effective high temperature annealing for the activation of phosphorus in the source/drains, we apply single- and multi-pulse nanosecond laser annealing on highly phosphorus-doped silicon. The microstructure, strain, and electrical properties of highly phosphorus-doped silicon before a… Show more

Recent Development of Low Damage Laser Microprocessing on Surface and Subsurface Treatment of Silicon for Industrial Applications

Recent Development of Low Damage Laser Microprocessing on Surface and Subsurface Treatment of Silicon for Industrial Applications

Evaluation of the chemical states and electrical activation of ultra-highly B-doped Si1-xGex by ion implantation and subsequent nanosecond laser annealing

Strain behavior and dopant activation of heavily in-situ B-doped SiGe epitaxial films treated by nanosecond laser annealing