Related papers: Abelian Spectral Topology of Multifold Exceptional Points

Abelian Spectral Topology of Multifold Exceptional Points

URL: http://arxiv.org/abs/2412.15323v1
Date: Thu, 19 Dec 2024 19:00:00 GMT
Title: Abelian Spectral Topology of Multifold Exceptional Points
Authors: Marcus Stålhammar, Lukas Rødland,
Abstract summary: We revisit the classification of EP$n$s in generic systems and systems with local symmetries. Our work reveals the mathematical foundations on which the topological nature of EP$n$s resides.
Score: 0.0
License:
Abstract: The advent of non-Hermitian physics has enriched the plethora of topological phases to include phenomena without Hermitian counterparts. Despite being among the most well-studied uniquely non-Hermitian features, the topological properties of multifold exceptional points, $n$-fold spectral degeneracies (EP$n$s) at which also the corresponding eigenvectors coalesce, were only recently revealed in terms of topological resultant winding numbers and concomitant Abelian doubling theorems. Nevertheless, a more mathematically fundamental description of EP$n$s and their topological nature has remained an open question. To fill this void, in this article, we revisit the topological classification of EP$n$s in generic systems and systems with local symmetries, generalize it in terms of more mathematically tractable (local) similarity relations, and extend it to include all such similarities as well as non-local symmetries. Through the resultant vector, whose components are given in terms of the resultants between the corresponding characteristic polynomial and its derivatives, the topological nature of the resultant winding number is understood in several ways: in terms of i) the tenfold classification of (Hermitian) topological matter, ii) the framework of Mayer--Vietoris sequence, and iii) the classification of vector bundles. Our work reveals the mathematical foundations on which the topological nature of EP$n$s resides, enriches the theoretical understanding of non-Hermitian spectral features, and will therefore find great use in modern experiments within both classical and quantum physics.

Related papers

Topological nature of edge states for one-dimensional systems without symmetry protection [46.87902365052209]
We numerically verify and analytically prove a winding number invariant that correctly predicts the number of edge states in one-dimensional, nearest-neighbour (between unit cells) Our invariant is invariant under unitary and similarity transforms.
arXiv Detail & Related papers (2024-12-13T19:44:54Z)
Topological Order in the Spectral Riemann Surfaces of Non-Hermitian Systems [44.99833362998488]
We show topologically ordered states in the complex-valued spectra of non-Hermitian systems. These arise when the distinctive exceptional points in the energy surfaces of such models are annihilated. We illustrate the characteristics of the topologically protected states in a non-Hermitian two-band model.
arXiv Detail & Related papers (2024-10-24T10:16:47Z)
Low-dimensional polaritonics: Emergent non-trivial topology on exciton-polariton simulators [0.0]
Polaritonic lattice configurations in dimensions $D=2$ are used as simulators of topological phases, based on symmetry class A Hamiltonians. We provide a comprehensive mathematical framework, which fully addresses the source and structure of topological phases in coupled polaritonic array systems.
arXiv Detail & Related papers (2023-10-31T04:22:58Z)
Homotopy, Symmetry, and Non-Hermitian Band Topology [4.777212360753631]
We show that non-Hermitian bands exhibit intriguing exceptional points, spectral braids and crossings. We reveal different Abelian and non-Abelian phases in $mathcalPT$-symmetric systems. These results open the door for theoretical and experimental exploration of a rich variety of novel topological phenomena.
arXiv Detail & Related papers (2023-09-25T18:00:01Z)
Exceptional entanglement in non-Hermitian fermionic models [1.8853792538756093]
Exotic singular objects, known as exceptional points, are ubiquitous in non-Hermitian physics. From the entanglement spectrum, zero-energy exceptional modes are found to be distinct from normal zero modes or topological boundary modes.
arXiv Detail & Related papers (2023-04-13T12:40:11Z)
Non-Hermitian Topology and Exceptional-Point Geometries [15.538614667230366]
Non-Hermitian theory is a theoretical framework that excels at describing open systems. Non-Hermitian framework consists of mathematical structures that are fundamentally different from those of Hermitian theories.
arXiv Detail & Related papers (2022-04-19T12:41:31Z)
A singular Riemannian geometry approach to Deep Neural Networks I. Theoretical foundations [77.86290991564829]
Deep Neural Networks are widely used for solving complex problems in several scientific areas, such as speech recognition, machine translation, image analysis. We study a particular sequence of maps between manifold, with the last manifold of the sequence equipped with a Riemannian metric. We investigate the theoretical properties of the maps of such sequence, eventually we focus on the case of maps between implementing neural networks of practical interest.
arXiv Detail & Related papers (2021-12-17T11:43:30Z)
Non-Hermitian $C_{NH} = 2$ Chern insulator protected by generalized rotational symmetry [85.36456486475119]
A non-Hermitian system is protected by the generalized rotational symmetry $H+=UHU+$ of the system. Our finding paves the way towards novel non-Hermitian topological systems characterized by large values of topological invariants.
arXiv Detail & Related papers (2021-11-24T15:50:22Z)
Finite-Function-Encoding Quantum States [52.77024349608834]
We introduce finite-function-encoding (FFE) states which encode arbitrary $d$-valued logic functions. We investigate some of their structural properties.
arXiv Detail & Related papers (2020-12-01T13:53:23Z)
Direct Measurement of Topological Properties of an Exceptional Parabola [3.349873063778719]
Non-Hermitian systems can produce branch singularities known as exceptional points (EPs) EP trajectory endows the parameter space with a non-trivial fundamental group consisting of two non-homotopic classes of loops. Our findings shed light on exotic non-Hermitian topology and provide a route for the experimental characterization of non-Hermitian topological invariants.
arXiv Detail & Related papers (2020-10-20T08:20:22Z)
Dynamical solitons and boson fractionalization in cold-atom topological insulators [110.83289076967895]
We study the $mathbbZ$ Bose-Hubbard model at incommensurate densities. We show how defects in the $mathbbZ$ field can appear in the ground state, connecting different sectors. Using a pumping argument, we show that it survives also for finite interactions.
arXiv Detail & Related papers (2020-03-24T17:31:34Z)

This list is automatically generated from the titles and abstracts of the papers in this site.