Suppression of superconductivity by twin boundaries in FeSe

Can Li Song; Yi Lin Wang; Ye Ping Jiang; Lili Wang; Ke He; Xi Chen; Jennifer E. Hoffman; Xu Cun Ma; Qi Kun Xue

doi:10.1103/PhysRevLett.109.137004

Suppression of superconductivity by twin boundaries in FeSe

Can Li Song^*
, Yi Lin Wang
, Ye Ping Jiang
, Lili Wang
, Ke He
, Xi Chen
, Jennifer E. Hoffman
, Xu Cun Ma
, Qi Kun Xue

^*Corresponding author for this work

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

104 Scopus citations

Abstract

Low-temperature scanning tunneling microscopy and spectroscopy are employed to investigate twin boundaries in stoichiometric FeSe films grown by molecular beam epitaxy. Twin boundaries can be unambiguously identified by imaging the 90° change in the orientation of local electronic dimers from Fe site impurities on either side. Twin boundaries run at approximately 45° to the Fe-Fe bond directions, and noticeably suppress the superconducting gap, in contrast with the recent experimental and theoretical findings in other iron pnictides. Furthermore, vortices appear to accumulate on twin boundaries, consistent with the degraded superconductivity there. The variation in superconductivity is likely caused by the increased Se height in the vicinity of twin boundaries, providing the first local evidence for the importance of this height to the mechanism of superconductivity.

Original language	English
Article number	137004
Journal	Physical Review Letters
Volume	109
Issue number	13
DOIs	https://doi.org/10.1103/PhysRevLett.109.137004
State	Published - 27 Sep 2012
Externally published	Yes

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10.1103/PhysRevLett.109.137004

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title = "Suppression of superconductivity by twin boundaries in FeSe",

abstract = "Low-temperature scanning tunneling microscopy and spectroscopy are employed to investigate twin boundaries in stoichiometric FeSe films grown by molecular beam epitaxy. Twin boundaries can be unambiguously identified by imaging the 90° change in the orientation of local electronic dimers from Fe site impurities on either side. Twin boundaries run at approximately 45° to the Fe-Fe bond directions, and noticeably suppress the superconducting gap, in contrast with the recent experimental and theoretical findings in other iron pnictides. Furthermore, vortices appear to accumulate on twin boundaries, consistent with the degraded superconductivity there. The variation in superconductivity is likely caused by the increased Se height in the vicinity of twin boundaries, providing the first local evidence for the importance of this height to the mechanism of superconductivity.",

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T1 - Suppression of superconductivity by twin boundaries in FeSe

AU - Song, Can Li

AU - Wang, Yi Lin

AU - Jiang, Ye Ping

AU - Wang, Lili

AU - He, Ke

AU - Chen, Xi

AU - Hoffman, Jennifer E.

AU - Ma, Xu Cun

AU - Xue, Qi Kun

PY - 2012/9/27

Y1 - 2012/9/27

N2 - Low-temperature scanning tunneling microscopy and spectroscopy are employed to investigate twin boundaries in stoichiometric FeSe films grown by molecular beam epitaxy. Twin boundaries can be unambiguously identified by imaging the 90° change in the orientation of local electronic dimers from Fe site impurities on either side. Twin boundaries run at approximately 45° to the Fe-Fe bond directions, and noticeably suppress the superconducting gap, in contrast with the recent experimental and theoretical findings in other iron pnictides. Furthermore, vortices appear to accumulate on twin boundaries, consistent with the degraded superconductivity there. The variation in superconductivity is likely caused by the increased Se height in the vicinity of twin boundaries, providing the first local evidence for the importance of this height to the mechanism of superconductivity.

AB - Low-temperature scanning tunneling microscopy and spectroscopy are employed to investigate twin boundaries in stoichiometric FeSe films grown by molecular beam epitaxy. Twin boundaries can be unambiguously identified by imaging the 90° change in the orientation of local electronic dimers from Fe site impurities on either side. Twin boundaries run at approximately 45° to the Fe-Fe bond directions, and noticeably suppress the superconducting gap, in contrast with the recent experimental and theoretical findings in other iron pnictides. Furthermore, vortices appear to accumulate on twin boundaries, consistent with the degraded superconductivity there. The variation in superconductivity is likely caused by the increased Se height in the vicinity of twin boundaries, providing the first local evidence for the importance of this height to the mechanism of superconductivity.

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DO - 10.1103/PhysRevLett.109.137004

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SN - 0031-9007

VL - 109

JO - Physical Review Letters

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ER -

Suppression of superconductivity by twin boundaries in FeSe

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