Activation volume for arsenic diffusion in germanium | Zendy

S. Mitha | Zendy; Michael J. Aziz | Zendy; David Schiferl | Zendy; D. B. Poker | Zendy

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Activation volume for arsenic diffusion in germanium

Author(s) -

S. Mitha,

Michael J. Aziz,

David Schiferl,

D. B. Poker

Publication year - 1996

Publication title -

applied physics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.182

H-Index - 442

eISSN - 1077-3118

pISSN - 0003-6951

DOI - 10.1063/1.116944

Subject(s) - germanium , vacancy defect , diffusion , hydrostatic pressure , volume (thermodynamics) , diamond anvil cell , activation energy , thermal diffusivity , arsenic , argon , chemistry , diamond , analytical chemistry (journal) , materials science , thermodynamics , silicon , high pressure , crystallography , metallurgy , physics , organic chemistry , chromatography

We have measured the effect of pressure on As diffusion in Ge. Diffusion anneals on ion‐implanted samples were carried out in a high‐temperature diamond anvil cell using fluid argon as a clean, hydrostatic pressure medium. At 575 °C over the pressure range 0.1–4 GPa, pressure slightly enhances the diffusivity, characterized by an activation volume of −1.7±1.4 cm3/mole or −0.12±0.10 times the atomic volume. The results call into question the prevailing view that diffusion of groups III, IV, and V elements are mediated entirely by vacancies. If diffusion of As is mediated entirely by vacancies then either the vacancy formation volume must be unexpectedly low or the energy of vacancy migration must be unexpectedly high.

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