Diffusion of hydrogen on the si(001) surface investigated by stm atom tracking

E. Hill; B. Freelon; E. Ganz

doi:10.1103/PhysRevB.60.15896

Diffusion of hydrogen on the si(001) surface investigated by stm atom tracking

E. Hill, B. Freelon, E. Ganz

Physics and Astronomy (Twin Cities)

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Abstract

The scanning tunneling microscopy atom-tracking technique is used to follow the individual diffusive hops of single H and D atoms on the Si(001) surface in ultrahigh vacuum. Attempt frequencies and activation energies for diffusion along the dimer row (intrarow) and between the atoms of a single Si dimer (intradimer) are extracted. For intrarow H diffusion, an activation energy of 1.75±0.10 eV and an attempt frequency of (Formula presented) are found. For intradimer H diffusion, an activation energy of 1.01±0.05 eV and a low attempt frequency of (Formula presented) are found. The ratios of H to D attempt frequencies for intradimer and intrarow diffusion are also determined.

Original language	English (US)
Pages (from-to)	15896-15900
Number of pages	5
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	60
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevB.60.15896
State	Published - 1999

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abstract = "The scanning tunneling microscopy atom-tracking technique is used to follow the individual diffusive hops of single H and D atoms on the Si(001) surface in ultrahigh vacuum. Attempt frequencies and activation energies for diffusion along the dimer row (intrarow) and between the atoms of a single Si dimer (intradimer) are extracted. For intrarow H diffusion, an activation energy of 1.75±0.10 eV and an attempt frequency of (Formula presented) are found. For intradimer H diffusion, an activation energy of 1.01±0.05 eV and a low attempt frequency of (Formula presented) are found. The ratios of H to D attempt frequencies for intradimer and intrarow diffusion are also determined.",

author = "E. Hill and B. Freelon and E. Ganz",

year = "1999",

doi = "10.1103/PhysRevB.60.15896",

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AB - The scanning tunneling microscopy atom-tracking technique is used to follow the individual diffusive hops of single H and D atoms on the Si(001) surface in ultrahigh vacuum. Attempt frequencies and activation energies for diffusion along the dimer row (intrarow) and between the atoms of a single Si dimer (intradimer) are extracted. For intrarow H diffusion, an activation energy of 1.75±0.10 eV and an attempt frequency of (Formula presented) are found. For intradimer H diffusion, an activation energy of 1.01±0.05 eV and a low attempt frequency of (Formula presented) are found. The ratios of H to D attempt frequencies for intradimer and intrarow diffusion are also determined.

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Diffusion of hydrogen on the si(001) surface investigated by stm atom tracking

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