Fermi Arcs in Anderson Lattice Models with d-wave Hybridization
ORAL
Abstract
We study an Anderson lattice model with a d-wave hybridization gap, using a second-order perturbation theory. Due to the interaction, the heavy electrons acquire a finite lifetime, while the light electrons do not. This asymmetric electron lifetime, combined with the momentum-dependent hybridization gap, results in Fermi arcs in electron’s spectrum function.
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Presenters
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Yang Qi
Department of Physics, Massachusetts Institute of Technology, Department of physics, Massachusetts Institute of Technology
Authors
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Yang Qi
Department of Physics, Massachusetts Institute of Technology, Department of physics, Massachusetts Institute of Technology
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Vladyslav Kozii
Department of Physics, Massachusetts Institute of Technology, Massachusetts Inst of Tech-MIT
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Yuki Nagai
CCSE, Japan Atomic Energy Agency
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Liang Fu
Department of Physics, Massachusetts Institute of Technology, Massachusetts Inst of Tech-MIT, Physics, Massachusetts Inst of Tech-MIT, Physics, Massachusetts Institute of Technology, Physics, Massachusetts Inst of Technology, Physics, MIT, Massachusetts Institute of Technology, MIT