Observation of strong electron pairing on bands without Fermi surfaces in LiFe1-x CoxAs

H. Miao; T. Qian; X. Shi; P. Richard; T. K. Kim; M. Hoesch; L. Y. Xing; X. C. Wang; C. Q. Jin; J. P. Hu; H. Ding

doi:10.1038/ncomms7056

Observation of strong electron pairing on bands without Fermi surfaces in LiFe_1-x Co_xAs

H. Miao, T. Qian^*, X. Shi, P. Richard, T. K. Kim, M. Hoesch, L. Y. Xing, X. C. Wang, C. Q. Jin, J. P. Hu, H. Ding

^*Corresponding author for this work

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

70 Citations (Scopus)

Abstract

In conventional BCS superconductors, the quantum condensation of superconducting electron pairs is understood as a Fermi surface instability, in which the low-energy electrons are paired by attractive interactions. Whether this explanation is still valid in high-T_c superconductors such as cuprates and iron-based superconductors remains an open question. In particular, a fundamentally different picture of the electron pairs, which are believed to be formed locally by repulsive interactions, may prevail. Here we report a high-resolution angle-resolved photoemission spectroscopy study on LiFe_1-x Co_xAs. We reveal a large and robust superconducting gap on a band sinking below the Fermi level on Co substitution. The observed Fermi-surface-free superconducting order is also the largest over the momentum space, which rules out a proximity effect origin and indicates that the order parameter is not tied to the Fermi surface as a result of a surface instability.

Original language	English
Article number	6056
Journal	Nature Communications
Volume	6
DOIs	https://doi.org/10.1038/ncomms7056
Publication status	Published - Jan 2015
Externally published	Yes

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title = "Observation of strong electron pairing on bands without Fermi surfaces in LiFe1-x CoxAs",

abstract = "In conventional BCS superconductors, the quantum condensation of superconducting electron pairs is understood as a Fermi surface instability, in which the low-energy electrons are paired by attractive interactions. Whether this explanation is still valid in high-Tc superconductors such as cuprates and iron-based superconductors remains an open question. In particular, a fundamentally different picture of the electron pairs, which are believed to be formed locally by repulsive interactions, may prevail. Here we report a high-resolution angle-resolved photoemission spectroscopy study on LiFe1-x CoxAs. We reveal a large and robust superconducting gap on a band sinking below the Fermi level on Co substitution. The observed Fermi-surface-free superconducting order is also the largest over the momentum space, which rules out a proximity effect origin and indicates that the order parameter is not tied to the Fermi surface as a result of a surface instability.",

author = "H. Miao and T. Qian and X. Shi and P. Richard and Kim, {T. K.} and M. Hoesch and Xing, {L. Y.} and Wang, {X. C.} and Jin, {C. Q.} and Hu, {J. P.} and H. Ding",

year = "2015",

month = jan,

doi = "10.1038/ncomms7056",

language = "English",

volume = "6",

journal = "Nature Communications",

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T1 - Observation of strong electron pairing on bands without Fermi surfaces in LiFe1-x CoxAs

AU - Miao, H.

AU - Qian, T.

AU - Shi, X.

AU - Richard, P.

AU - Kim, T. K.

AU - Hoesch, M.

AU - Xing, L. Y.

AU - Wang, X. C.

AU - Jin, C. Q.

AU - Hu, J. P.

AU - Ding, H.

PY - 2015/1

Y1 - 2015/1

N2 - In conventional BCS superconductors, the quantum condensation of superconducting electron pairs is understood as a Fermi surface instability, in which the low-energy electrons are paired by attractive interactions. Whether this explanation is still valid in high-Tc superconductors such as cuprates and iron-based superconductors remains an open question. In particular, a fundamentally different picture of the electron pairs, which are believed to be formed locally by repulsive interactions, may prevail. Here we report a high-resolution angle-resolved photoemission spectroscopy study on LiFe1-x CoxAs. We reveal a large and robust superconducting gap on a band sinking below the Fermi level on Co substitution. The observed Fermi-surface-free superconducting order is also the largest over the momentum space, which rules out a proximity effect origin and indicates that the order parameter is not tied to the Fermi surface as a result of a surface instability.

AB - In conventional BCS superconductors, the quantum condensation of superconducting electron pairs is understood as a Fermi surface instability, in which the low-energy electrons are paired by attractive interactions. Whether this explanation is still valid in high-Tc superconductors such as cuprates and iron-based superconductors remains an open question. In particular, a fundamentally different picture of the electron pairs, which are believed to be formed locally by repulsive interactions, may prevail. Here we report a high-resolution angle-resolved photoemission spectroscopy study on LiFe1-x CoxAs. We reveal a large and robust superconducting gap on a band sinking below the Fermi level on Co substitution. The observed Fermi-surface-free superconducting order is also the largest over the momentum space, which rules out a proximity effect origin and indicates that the order parameter is not tied to the Fermi surface as a result of a surface instability.

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U2 - 10.1038/ncomms7056

DO - 10.1038/ncomms7056

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VL - 6

JO - Nature Communications

JF - Nature Communications

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Observation of strong electron pairing on bands without Fermi surfaces in LiFe_1-x Co_xAs

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