Magnetic Studies of Superconductivity in the Ga-Sn Alloy Regular Nanostructures

Marina V. Likholetova; Elena V. Charnaya; Evgenii V. Shevchenko; Min Kai Lee; Lieh Jeng Chang; Yurii A. Kumzerov; Aleksandr V. Fokin

doi:10.3390/nano13020280

Magnetic Studies of Superconductivity in the Ga-Sn Alloy Regular Nanostructures

Marina V. Likholetova, Elena V. Charnaya, Evgenii V. Shevchenko, Min Kai Lee, Lieh Jeng Chang, Yurii A. Kumzerov, Aleksandr V. Fokin

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

For applications of nanolattices in low-temperature nanoelectronics, the inter-unit space can be filled with superconducting metallic alloys. However, superconductivity under nanoconfinement is expected to be strongly affected by size-effects and other factors. We studied the magnetic properties and structure of the Ga-Sn eutectic alloy within regular nanopores of an opal template, to understand the specifics of the alloy superconductivity. Two superconducting transitions were observed, in contrast to the bulk alloy. The transitions were ascribed to the segregates with the structures of tetragonal tin and a particular gallium polymorph. The superconducting-phase diagram was constructed, which demonstrated crossovers from the positive- to the common negative-curvature of the upper critical-field lines. Hysteresis was found between the susceptibilities obtained at cooling and warming in the applied magnetic field.

Original language	English
Article number	280
Journal	Nanomaterials
Volume	13
Issue number	2
DOIs	https://doi.org/10.3390/nano13020280
Publication status	Published - 2023 Jan

All Science Journal Classification (ASJC) codes

General Chemical Engineering
General Materials Science

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10.3390/nano13020280

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title = "Magnetic Studies of Superconductivity in the Ga-Sn Alloy Regular Nanostructures",

abstract = "For applications of nanolattices in low-temperature nanoelectronics, the inter-unit space can be filled with superconducting metallic alloys. However, superconductivity under nanoconfinement is expected to be strongly affected by size-effects and other factors. We studied the magnetic properties and structure of the Ga-Sn eutectic alloy within regular nanopores of an opal template, to understand the specifics of the alloy superconductivity. Two superconducting transitions were observed, in contrast to the bulk alloy. The transitions were ascribed to the segregates with the structures of tetragonal tin and a particular gallium polymorph. The superconducting-phase diagram was constructed, which demonstrated crossovers from the positive- to the common negative-curvature of the upper critical-field lines. Hysteresis was found between the susceptibilities obtained at cooling and warming in the applied magnetic field.",

author = "Likholetova, {Marina V.} and Charnaya, {Elena V.} and Shevchenko, {Evgenii V.} and Lee, {Min Kai} and Chang, {Lieh Jeng} and Kumzerov, {Yurii A.} and Fokin, {Aleksandr V.}",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

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month = jan,

doi = "10.3390/nano13020280",

language = "English",

volume = "13",

journal = "Nanomaterials",

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T1 - Magnetic Studies of Superconductivity in the Ga-Sn Alloy Regular Nanostructures

AU - Likholetova, Marina V.

AU - Charnaya, Elena V.

AU - Shevchenko, Evgenii V.

AU - Lee, Min Kai

AU - Chang, Lieh Jeng

AU - Kumzerov, Yurii A.

AU - Fokin, Aleksandr V.

PY - 2023/1

Y1 - 2023/1

N2 - For applications of nanolattices in low-temperature nanoelectronics, the inter-unit space can be filled with superconducting metallic alloys. However, superconductivity under nanoconfinement is expected to be strongly affected by size-effects and other factors. We studied the magnetic properties and structure of the Ga-Sn eutectic alloy within regular nanopores of an opal template, to understand the specifics of the alloy superconductivity. Two superconducting transitions were observed, in contrast to the bulk alloy. The transitions were ascribed to the segregates with the structures of tetragonal tin and a particular gallium polymorph. The superconducting-phase diagram was constructed, which demonstrated crossovers from the positive- to the common negative-curvature of the upper critical-field lines. Hysteresis was found between the susceptibilities obtained at cooling and warming in the applied magnetic field.

AB - For applications of nanolattices in low-temperature nanoelectronics, the inter-unit space can be filled with superconducting metallic alloys. However, superconductivity under nanoconfinement is expected to be strongly affected by size-effects and other factors. We studied the magnetic properties and structure of the Ga-Sn eutectic alloy within regular nanopores of an opal template, to understand the specifics of the alloy superconductivity. Two superconducting transitions were observed, in contrast to the bulk alloy. The transitions were ascribed to the segregates with the structures of tetragonal tin and a particular gallium polymorph. The superconducting-phase diagram was constructed, which demonstrated crossovers from the positive- to the common negative-curvature of the upper critical-field lines. Hysteresis was found between the susceptibilities obtained at cooling and warming in the applied magnetic field.

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Magnetic Studies of Superconductivity in the Ga-Sn Alloy Regular Nanostructures

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