Observation of Fermi-surface–dependent nodeless superconducting gaps in Ba0.6K0.4Fe2As2

H. Ding; P. Richard; K. Nakayama; K. Sugawara; T. Arakane; Y. Sekiba; A. Takayama; S. Souma; T. Sato; T. Takahashi; Z. Wang; X. Dai; Z. Fang; G. F. Chen; J. L. Luo; N. L. Wang

doi:10.1209/0295-5075/83/47001

Observation of Fermi-surface–dependent nodeless superconducting gaps in Ba_0.6K_0.4Fe₂As₂

H. Ding¹, P. Richard², K. Nakayama³, K. Sugawara³, T. Arakane³, Y. Sekiba³, A. Takayama³, S. Souma², T. Sato³, T. Takahashi^2,3, Z. Wang⁴, X. Dai¹, Z. Fang¹, G. F. Chen¹, J. L. Luo¹ and N. L. Wang¹

Published 14 July 2008 • Europhysics Letters Association
Europhysics Letters, Volume 83, Number 4 Citation H. Ding et al 2008 EPL 83 47001 DOI 10.1209/0295-5075/83/47001

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¹ Beijing National Laboratory for Condensed Matter Physics, and Institute of Physics, Chinese Academy of Sciences Beijing 100190, China

² WPI Research Center, Advanced Institute for Material Research, Tohoku University - Sendai 980-8577, Japan

³ Department of Physics, Tohoku University - Sendai 980-8578, Japan

⁴ Department of Physics, Boston College - Chestnut Hill, MA 02467, USA

Dates

Received 3 July 2008
Accepted 7 July 2008
Published 14 July 2008

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Abstract

We have performed a high-resolution angle-resolved photoelectron spectroscopy study on the newly discovered superconductor Ba_0.6K_0.4Fe₂As₂ (T_c=37 K). We have observed two superconducting gaps with different values: a large gap (Δ∼12 meV) on the two small hole-like and electron-like Fermi surface (FS) sheets, and a small gap (∼6 meV) on the large hole-like FS. Both gaps, closing simultaneously at the bulk transition temperature (T_c), are nodeless and nearly isotropic around their respective FS sheets. The isotropic pairing interactions are strongly orbital dependent, as the ratio 2Δ/k_BT_c switches from weak to strong coupling on different bands. The same and surprisingly large superconducting gap due to strong pairing on the two small FSs, which are connected by the (π, 0) spin-density-wave vector in the parent compound, strongly suggests that the pairing mechanism originates from the inter-band interactions between these two nested FS sheets.

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