Surface hydrogen incorporation and profile broadening caused by sheath expansion in hydrogen plasma immersion ion implantation

Abstract: Hydrogen plasma immersion ion implantation (PIII) in conjunction with ion-cut is an efficient and economical technique to synthesize silicon-on-insulator (SOI) substrates. Unlike beam-line ion implantation, the PIII hydrogen profile usually exhibits multiple peaks because of different implanted species, such as H + , H + 2 , and H + 3 . In addition, a certain amount of adsorbed hydrogen exists near the surface and the hydrogen in-depth distribution is broader than that of a beam-line implant also as a result o… Show more

“…Time-stationary analyses give a minimum ion entry velocity at the sheath edge (interface between the neutral inner plasma and the sheath) resulting in the Bohm criterion [1]. Recent studies of plasma sheaths indicate their importance in the semiconductor industry such as the deployment of plasma etching processes [2,3].…”

Boundary conditions and numerical fluid modelling of time-evolutionary plasma sheaths

“…Time-stationary analyses give a minimum ion entry velocity at the sheath edge (interface between the neutral inner plasma and the sheath) resulting in the Bohm criterion [1]. Recent studies of plasma sheaths indicate their importance in the semiconductor industry such as the deployment of plasma etching processes [2,3].…”

Boundary conditions and numerical fluid modelling of time-evolutionary plasma sheaths

Biomimetic growth of apatite on hydrogen-implanted silicon

Bioactivity of plasma implanted biomaterials