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arxiv: 2012.03333 · v1 · pith:S2YSJH5Fnew · submitted 2020-12-06 · ❄️ cond-mat.mes-hall · cond-mat.quant-gas· physics.optics

Non-perturbative Breakdown of Bloch's Theorem and Hermitian Skin Effects

classification ❄️ cond-mat.mes-hall cond-mat.quant-gasphysics.optics
keywords blochhermitiantheoremalthoughbrokendownmomentumskin
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In conventional Hermitian systems with the open boundary condition, Bloch's theorem is perturbatively broken down, which means although the crystal momentum is not a good quantum number, the eigenstates are the superposition of several extended Bloch waves. In this paper, we show that Bloch's theorem can be non-perturbatively broken down in some Hermitian Bosonic systems. The quasiparticles of the system are the superposition of localized non-Bloch waves, which are characterized by the complex momentum whose imaginary part determines the localization properties. Our work is a Hermitian generalization of the non-Hermitian skin effect, although they share the same mechanism.

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  1. Non-Bloch band theory of boundary-controlled magnon edge modes in an antiferromagnetic chain

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    Introduces a non-Bloch winding number on a generalized Brillouin zone to predict and control boundary-localized magnon modes in an antiferromagnetic chain where conventional bulk-boundary correspondence fails.