Email this article Influence of annealing at temperatures above the solidus temperature on the structure and galvanomagnetic properties of Bi92Sb8 solid-solution thin films
- Authors: Grabov V.M.1, Demidov E.V.1, Ivanova E.K.1, Komarov V.A.1, Kablukova N.S.1, Krushel’nitskii A.N.1, Staritsyn M.V.1
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Affiliations:
- Gertsen Russian State Pedagogical University
- Issue: Vol 62, No 7 (2017)
- Pages: 1087-1092
- Section: Physics of Nanostructures
- URL: https://journals.rcsi.science/1063-7842/article/view/199714
- DOI: https://doi.org/10.1134/S1063784217070039
- ID: 199714
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Abstract
The influence of the annealing temperature from the interval between the solidus and liquidus temperatures of Bi92Sb8 solid solution on its structure and galvanomagnetic and thermoelectric properties has been studied. It has been shown that films of bismuth–antimony solid solution grown by thermal evaporation in a vacuum will have a large-grained structure after annealing at temperatures higher than the solidus temperature of the solid solution. It has been found that these films offer the lowest resistivity, the highest relative magnetoresistance, and the highest mobility of charge carriers. As the annealing temperature approaches the liquidus temperature, the probability that a dendritic structure will form and antimony-enriched regions will appear grows. This causes an increase in the charge carrier concentration and a decrease in the resistivity with a decrease in the relative magnetoresistance and charge carrier mobility.
About the authors
V. M. Grabov
Gertsen Russian State Pedagogical University
Email: demidov_evg@yandex.ru
Russian Federation, nab. Moiki 48, St. Petersburg, 191186
E. V. Demidov
Gertsen Russian State Pedagogical University
Author for correspondence.
Email: demidov_evg@yandex.ru
Russian Federation, nab. Moiki 48, St. Petersburg, 191186
E. K. Ivanova
Gertsen Russian State Pedagogical University
Email: demidov_evg@yandex.ru
Russian Federation, nab. Moiki 48, St. Petersburg, 191186
V. A. Komarov
Gertsen Russian State Pedagogical University
Email: demidov_evg@yandex.ru
Russian Federation, nab. Moiki 48, St. Petersburg, 191186
N. S. Kablukova
Gertsen Russian State Pedagogical University
Email: demidov_evg@yandex.ru
Russian Federation, nab. Moiki 48, St. Petersburg, 191186
A. N. Krushel’nitskii
Gertsen Russian State Pedagogical University
Email: demidov_evg@yandex.ru
Russian Federation, nab. Moiki 48, St. Petersburg, 191186
M. V. Staritsyn
Gertsen Russian State Pedagogical University
Email: demidov_evg@yandex.ru
Russian Federation, nab. Moiki 48, St. Petersburg, 191186
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