Tunneling spectra of break junctions involving Nb 3Sn

Toshikazu Ekino; Akira Sugimoto; Yuta Sakai; Alexander M. Gabovich; Jun Akimitsu

doi:10.1063/1.4897415

Tunneling spectra of break junctions involving Nb ³Sn

Toshikazu Ekino, Akira Sugimoto, Yuta Sakai, Alexander M. Gabovich, Jun Akimitsu

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

4 Citations (Scopus)

Abstract

The electronic gap structure of Nb³Sn was measured by the break-junction (BJ) tunneling technique. The superconducting gap values are estimated to be in the range 2{increment} = 4-5.5 meV at T = 4.2 K as follows from the observed distinct conductance peaks. In addition to the superconducting gap structure, we observed reproducible hump-like structures at the biases of about ±20 and ±50 mV. Such a coexistence of gap and hump structures resembles the situation found in the high-Tc copper-oxide superconductors. Above the superconducting critical temperature Tc ~ 18 K, the humps appear as the only gap-like structures. Their possible origin is discussed in connection to the structural phase transition occurring in Nb³Sn.

Original language	English
Article number	1.4897415
Journal	Low Temperature Physics
Volume	40
Issue number	10
DOIs	https://doi.org/10.1063/1.4897415
Publication status	Published - Oct 1 2014
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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title = "Tunneling spectra of break junctions involving Nb 3Sn",

abstract = "The electronic gap structure of Nb3Sn was measured by the break-junction (BJ) tunneling technique. The superconducting gap values are estimated to be in the range 2{increment} = 4-5.5 meV at T = 4.2 K as follows from the observed distinct conductance peaks. In addition to the superconducting gap structure, we observed reproducible hump-like structures at the biases of about ±20 and ±50 mV. Such a coexistence of gap and hump structures resembles the situation found in the high-Tc copper-oxide superconductors. Above the superconducting critical temperature Tc ~ 18 K, the humps appear as the only gap-like structures. Their possible origin is discussed in connection to the structural phase transition occurring in Nb3Sn.",

author = "Toshikazu Ekino and Akira Sugimoto and Yuta Sakai and Gabovich, {Alexander M.} and Jun Akimitsu",

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T1 - Tunneling spectra of break junctions involving Nb 3Sn

AU - Ekino, Toshikazu

AU - Sugimoto, Akira

AU - Sakai, Yuta

AU - Gabovich, Alexander M.

AU - Akimitsu, Jun

PY - 2014/10/1

Y1 - 2014/10/1

N2 - The electronic gap structure of Nb3Sn was measured by the break-junction (BJ) tunneling technique. The superconducting gap values are estimated to be in the range 2{increment} = 4-5.5 meV at T = 4.2 K as follows from the observed distinct conductance peaks. In addition to the superconducting gap structure, we observed reproducible hump-like structures at the biases of about ±20 and ±50 mV. Such a coexistence of gap and hump structures resembles the situation found in the high-Tc copper-oxide superconductors. Above the superconducting critical temperature Tc ~ 18 K, the humps appear as the only gap-like structures. Their possible origin is discussed in connection to the structural phase transition occurring in Nb3Sn.

AB - The electronic gap structure of Nb3Sn was measured by the break-junction (BJ) tunneling technique. The superconducting gap values are estimated to be in the range 2{increment} = 4-5.5 meV at T = 4.2 K as follows from the observed distinct conductance peaks. In addition to the superconducting gap structure, we observed reproducible hump-like structures at the biases of about ±20 and ±50 mV. Such a coexistence of gap and hump structures resembles the situation found in the high-Tc copper-oxide superconductors. Above the superconducting critical temperature Tc ~ 18 K, the humps appear as the only gap-like structures. Their possible origin is discussed in connection to the structural phase transition occurring in Nb3Sn.

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Tunneling spectra of break junctions involving Nb ³Sn

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