Fermi Surface and Pseudogap Evolution in a Cuprate Superconductor

Anjan Soumyanarayanan; Arun Bansil; E. W. Hudson; H. Ikuta; I. Zeljkovic; Jennifer. E. Hoffman; Kamalesh Chatterjee; M. C. Boyer; Michael M. Yee; M. Zech

arxiv: 1305.2778 · v2 · pith:6UKNG3N7new · submitted 2013-05-13 · ❄️ cond-mat.supr-con · cond-mat.str-el

Fermi Surface and Pseudogap Evolution in a Cuprate Superconductor

Yang He , Yi Yin , M. Zech , Anjan Soumyanarayanan , Michael M. Yee , Tess Williams , M. C. Boyer , Kamalesh Chatterjee

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W. D. Wise I. Zeljkovic Takeshi Kondo T. Takeuchi H. Ikuta Peter Mistark Robert S. Markiewicz Arun Bansil Subir Sachdev E. W. Hudson Jennifer. E. Hoffman

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classification ❄️ cond-mat.supr-con cond-mat.str-el

keywords cupratepseudogapfermisurfacedopingsuperconductingsuperconductivitytransition

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The unclear relationship between cuprate superconductivity and the pseudogap state remains an impediment to understanding the high transition temperature (Tc) superconducting mechanism. Here we employ magnetic-field-dependent scanning tunneling microscopy to provide phase-sensitive proof that d-wave superconductivity coexists with the pseudogap on the antinodal Fermi surface of an overdoped cuprate. Furthermore, by tracking the hole doping (p) dependence of the quasiparticle interference pattern within a single Bi-based cuprate family, we observe a Fermi surface reconstruction slightly below optimal doping, indicating a zero-field quantum phase transition in notable proximity to the maximum superconducting Tc. Surprisingly, this major reorganization of the system's underlying electronic structure has no effect on the smoothly evolving pseudogap.

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