Low Temperature Physics: 41, 465 (2015); https://doi.org/10.1063/1.4922100
Fizika Nizkikh Temperatur: Volume 41, Number 6 (June 2015), p. 594-597    ( to contents , go back )

On dissociation in weakly doped ice

I. Chikina1 and V. Shikin2

1CEA Saclay, CEA CNRS, LIONS DSM IRAMIS NIMBE, UMR 3299, F-91191 Gif Sur Yvette, France

2Institute of Solid State Physics of RAS, 142432, Chernogolovka, Russia
E-mail: shikinv@yandex.ru
pos Анотація:

Received November 24, 2014


Currently, there is some ambiguity in the problem of decay of a single donor into charged fragments. Thus, in the well-known Ostwald approximation used for semiconductors (ice being one of them) the donor dissociation degree of tends to its maximum value (i.e., unity) as the doping impurity concentration approaches zero. At the same time, the statistical theory of atom reveals within the Thomas–Fermi (or Debye–Hückel) approximation the existence of a thermodynamically equilibrium state of a single multi-electron atom (donor) where charged nucleus keeps the number of counterions just necessary for its neutralization. These scenarios do not show the atom dissociation at all. Discussed in the present paper is the alternative between the full dissociation of a single donor (i.e., dissociation degree equals unity) in a semiconducting media (ice, water, semiconductor) and zero dissociation degree.

PACS: 52.20.–j Elementary processes in plasmas.

Key words: Ostwald approximation, semiconductors, dissociation of a single donor.

Published online: April 23, 2015

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