Boron neutralization and hydrogen diffusion in silicon subjected to low-energy hydrogen implantation
1989
Using the hydrogen neutralization of the boron acceptor, the diffusion of hydrogen is investigated in the temperature range 20 °–160 °C. The hydrogenation is performed by low-energy implantation. We observe a fast initial hydrogen migration, followed by a long-time diffusion phase that is described by an effective diffusion coefficientDeff=D0 eff exp(−Ea/kT) withD0 eff–cm2s−1 andEa=(0.83±0.05) eV. No deeper hydrogen migration is detected for implantation times longer than − 30 min. Our data are explained by the build-up of a large amount of molecular hydrogen beneath the surface, which strongly hinders the transfer of the implanted hydrogen to the bulk. The thermal reactivation kinetics of the neutralized boron show a rapid initial step followed by a longtime thermally activated second order phase, which is limited by the recombination of hydrogen into molecules.
Keywords:
- Correction
- Source
- Cite
- Save
- Machine Reading By IdeaReader
39
References
38
Citations
NaN
KQI