Doping-dependent nodal Fermi velocity in Bi-2212 revealed by high-resolution ARPES

B. Moritz; C. Zhang; F. Schmitt; I. M. Vishik; K. Fujita; S. Ishida; S. Uchida; T. P. Devereaux; T. Sasagawa; W. S. Lee

arxiv: 1002.2630 · v3 · pith:WJJK226Tnew · submitted 2010-02-12 · ❄️ cond-mat.supr-con · cond-mat.str-el

Doping-dependent nodal Fermi velocity in Bi-2212 revealed by high-resolution ARPES

I. M. Vishik , W. S. Lee , F. Schmitt , B. Moritz , T. Sasagawa , S. Uchida , K. Fujita , S. Ishida

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C. Zhang T. P. Devereaux Z.-X. Shen

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

keywords nodalvelocitybi-2212kinkarpesdoping-dependentfermimeasurements

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The improved resolution of laser-based angle-resolved photoemission spectroscopy (ARPES) allows reliable access to fine structures in the spectrum. We present a systematic, doping-dependent study of a recently discovered low-energy kink in the nodal dispersion of Bi2Sr2CaCu2O8+d (Bi-2212), which demonstrates the ubiquity and robustness of this kink in underdoped Bi-2212. The renormalization of the nodal velocity due to this kink becomes stronger with underdoping, revealing that the nodal Fermi velocity is non-universal, in contrast to assumed phenomenology. This is used together with laser-ARPES measurements of the gap velocity, v2, to resolve discrepancies with thermal conductivity measurements.

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Doping-dependent nodal Fermi velocity in Bi-2212 revealed by high-resolution ARPES

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