Dipole moments of H-2, D-2, and HD molecules in Czochralski silicon

Citation
Rc. Newman et al., Dipole moments of H-2, D-2, and HD molecules in Czochralski silicon, PHYS REV B, 60(18), 1999, pp. 12775-12780
Citations number
32
Categorie Soggetti
Apllied Physucs/Condensed Matter/Materiales Science
Journal title
PHYSICAL REVIEW B-CONDENSED MATTER
ISSN journal
01631829 → ACNP
Volume
60
Issue
18
Year of publication
1999
Pages
12775 - 12780
Database
ISI
SICI code
0163-1829(19991101)60:18<12775:DMOHDA>2.0.ZU;2-F
Abstract
Measurements show that the effective charge eta(nu(3DD)) (dipole moment per unit displacement) of the infrared (IR) active stretch mode of isolated in terstitial D-2 molecules is smaller than eta(nu(3HH)) for H-2 molecules in Si crystals. This may relate to differences in the orientations of the mole cular axes that are not in general parallel to the direction of the dipole moments. For molecules paired with an interstitial oxygen atom in Czochrals ki Si, i.e., (D-2(H-2)-O-i) (two configurations of each), the effective cha rges eta(nu(1DD)) and eta(nu(2DD)) are essentially equal to eta(nu(1HH)) an d eta(nu(2HH)) respectively. No information has been obtained for the effec tive charges of the three nu(HD) modes. For samples heated in a mixture of [H-2]=[D-2], the ratios of the concentrations of [H-2]:[HD]:[D-2] are expec ted to be 1:2:1 but the derived concentrations of [HD] are always too small , although [H-2] is essentially equal to [D-2]. Measurements show that the solubilities of hydrogen and deuterium at 1300 degrees C are equal and both vary as p(0.56), where p is the partial pressure of the gas that is mixed with argon. It is inferred either (a) that the dipole moments of HD molecul es in the three locations are all anomalously small or (b) that the concent rations of [HD] are significantly smaller than expected from random pairing of H and D atoms during cooling following the heat treatment. A proposal t hat similar to 70% of the hydrogen and deuterium is introduced into the Si in the form of correlated H-H and D-D pairs at 1300 degrees C removes the d iscrepancy (b) but is unlikely as there is then conflict with the measured pressure dependencies of the hydrogen and deuterium solubilities. [S0163-18 29(99)00542-1].