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arxiv: 1812.02011 · v4 · pith:3DW7ZSXPnew · submitted 2018-12-03 · ❄️ cond-mat.mes-hall · cond-mat.mtrl-sci· cond-mat.other· math-ph· math.MP· quant-ph

Tidal surface states as fingerprints of non-Hermitian nodal knot metals

classification ❄️ cond-mat.mes-hall cond-mat.mtrl-scicond-mat.othermath-phmath.MPquant-ph
keywords surfacenon-hermitianstatesknotnkmsnodaltidaltopological
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Non-Hermitian nodal knot metals (NKMs) contains intricate complex-valued energy bands gives rise to knotted exceptional loops and new topological surface states. We introduce a formalism that connects the algebraic, geometric, and topological aspects of these surface states with their parent knots, and provide an optimized constructive ansatz for tight-binding models for non-Hermitian NKMs of arbitrary knot complexity and minimal hybridization range. Specifically, various representative non-Hermitian torus knots Hamiltonians are constructed in real-space, and their nodal topologies studied via winding numbers that avoid the explicit construction of generalized Brillouin zones. In particular, we identify the surface state boundaries as "tidal" intersections of the complex band structure in a marine landscape analogy. Beyond topological quantities based on Berry phases, we further find these tidal surface states to be intimately connected to the band vorticity and the layer structure of their dual Seifert surface, and as such provide a fingerprint for non-Hermitian NKMs.

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    Majorana modes in long-range quantum spin models are mapped to knots and links, with eigenstate curves forming links in gapped phases and knots in gapless phases, characterized by crossing and linking numbers.