C. Lauinger scite author profile

In this work we investigated the electrical properties of rapidly quenched amorphous BixSb alloys in the temperature range of 1.2 K to 345 K. The resistance reveals that for a broad range of different compositions, including that for the topological insulator (TI), a superconducting state in the amorphous phase is present. After crystallization and annealing at an intermediate temperature, we found that in pure Bi and BixSb alloys with composition corresponding to the TI, the superconductivity persists, but the transition shifts to a lower temperature. The highest superconducting transition temperature was found for pure Bi and those TI’s, with a shift to low temperatures when the Sb content is increased. After annealing at a maximum temperature of T = 345 K, the samples are non-superconducting within the experimental range and the behavior changes from semiconducting-like for pure Bi, to metallic-like for pure Sb. Transition temperature of the amorphous BixSb alloys have been calculated in the BCS–Eliashberg–McMillan framework, modified for binary alloys. The results can explain the experimental results and show that amorphous BixSb exhibits a strong to intermediate electron–phonon coupling.

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Entwicklungspotenziale für stufenlose Getriebe

Englisch

Faust

Homm

et al. 2003

ATZ Automobiltech Z

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Atomic structure and electronic transport properties of amorphous NaxSn1−x alloys

Madel

Lauinger

Häußler

1999

Journal of Non-Crystalline Solids

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C. Lauinger

Thermoelectric power and electrical conductivity of amorphous Au_xSb_100-xfilms near the metal-insulator transition

Low-temperature interface reactions in layered Au/Sb films:In situinvestigation of the formation of an amorphous phase

Superconductivity in the amorphous phase of topological insulator Bi_xSb_100–xalloys

Entwicklungspotenziale für stufenlose Getriebe

Atomic structure and electronic transport properties of amorphous NaxSn1−x alloys

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C. Lauinger

Thermoelectric power and electrical conductivity of amorphous AuxSb100-xfilms near the metal-insulator transition

Low-temperature interface reactions in layered Au/Sb films:In situinvestigation of the formation of an amorphous phase

Superconductivity in the amorphous phase of topological insulator BixSb100–xalloys

Entwicklungspotenziale für stufenlose Getriebe

Atomic structure and electronic transport properties of amorphous NaxSn1−x alloys

Contact Info

Product

Resources

About

Thermoelectric power and electrical conductivity of amorphous Au_xSb_100-xfilms near the metal-insulator transition

Superconductivity in the amorphous phase of topological insulator Bi_xSb_100–xalloys