arxiv: 1412.7016 · v1 · pith:RDDETC64new · submitted 2014-12-22 · ❄️ cond-mat.supr-con · cond-mat.mtrl-sci

Camelback-shaped band reconciles heavy electron behavior with weak electronic Coulomb correlations in superconducting TlNi2Se2

N. Xu , C. E. Matt , P. Richard , A. van Roekeghem , S. Biermann , X. Shi , S.-F. Wu , H. W. Liu

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D. Chen T. Qian N. C. Plumb M. Radovic Hangdong Wang Qianhui Mao Jianhua Du Minghu Fang J. Mesot H. Ding M. Shi

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classification ❄️ cond-mat.supr-con cond-mat.mtrl-sci

keywords bandcamelback-shapedcorrelationscoulombelectronicheavysuperconductingtlni

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Using high-resolution photoemission spectroscopy and first-principles calculations, we characterize superconducting TlNi$_2$Se$_2$ as a material with weak electronic Coulomb correlations leading to a bandwidth renormalization of 1.4. We identify a camelback-shaped band, whose energetic position strongly depends on the selenium height. While this feature is universal in transition metal pnictides, in TlNi$_2$Se$_2$ it lies in the immediate vicinity of the Fermi level, giving rise to a pronounced van Hove singularity. The resulting heavy band mass resolves the apparent puzzle of a large normal-state specific heat coefficient (Phys. Rev. Lett. 112, 207001) in this weakly correlated compound.

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Camelback-shaped band reconciles heavy electron behavior with weak electronic Coulomb correlations in superconducting TlNi2Se2

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