Related papers: Dynamical signatures of point-gap Weyl semimetal

Dynamical signatures of point-gap Weyl semimetal

URL: http://arxiv.org/abs/2107.02135v3
Date: Mon, 19 Sep 2022 02:52:14 GMT
Title: Dynamical signatures of point-gap Weyl semimetal
Authors: Haiping Hu, Erhai Zhao, and W. Vincent Liu
Abstract summary: We consider a model where a pair of Weyl points reside on the imaginary axis of the complex energy plane, opening up a point gap characterized by a topological invariant. We predict a time-dependent current flow along the magnetic field in the absence of an electric field, in sharp contrast to the current driven by the chiral anomaly. Second, we reveal a novel type of boundary-skin mode in the wire geometry which becomes localized at two corners of the wire cross section.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We demonstrate a few unique dynamical properties of point-gap Weyl semimetal, an intrinsic non-Hermitian topological phase in three dimensions. We consider a concrete model where a pair of Weyl points reside on the imaginary axis of the complex energy plane, opening up a point gap characterized by a topological invariant, the three-winding number $W_3$. This gives rise to surface spectra and dynamical responses that differ fundamentally from those in Hermitian Weyl semimetals. First, we predict a time-dependent current flow along the magnetic field in the absence of an electric field, in sharp contrast to the current driven by the chiral anomaly, which requires both electric and magnetic fields. Second, we reveal a novel type of boundary-skin mode in the wire geometry which becomes localized at two corners of the wire cross section. We explain its origin and show its experimental signatures in wave-packet dynamics.

Related papers

Electrical control of topological 3Q state in an intercalated van der Waals antiferromagnet [1.714066678536933]
Van der Waals (vdW) magnets have opened a new avenue of novel opportunities covering various interesting phases. Co2/3TaS2-an intercalated metallic vdW antiferromagnet-is one of the latest important additions to the growing list of materials. Careful bulk characterisations have shown the ground state of CoxTaS2 to be a rare 3Q tetrahedral structure for x less than 1/3.
arXiv Detail & Related papers (2024-09-04T13:47:19Z)
Unveiling the Quantum Toroidal Dipole in Nanosystems: Quantization, Interaction Energy, and Measurement [44.99833362998488]
We investigate a quantum particle confined to a toroidal surface in the presence of a filiform current along the system's rotational axis. Our analysis reveals that the interaction between the particle and the current induces a non-zero toroidal dipole in the particle's stationary states.
arXiv Detail & Related papers (2024-01-26T13:31:32Z)
Discovery of a topological exciton insulator with tunable momentum order [7.605112731805254]
Topology and correlations are fundamental concepts in modern physics, but their simultaneous occurrence within a single quantum phase is exceptionally rare. We present the discovery of such a phase of matter in Ta2Pd3Te5, a semimetal where the Coulomb interaction between electrons and holes leads to the formation of excitonic bound states below T=100 K. Our spectroscopy unveils the development of an insulating gap stemming from the condensation of these excitons, thus giving rise to a highly sought-after correlated quantum phase known as the excitonic insulator.
arXiv Detail & Related papers (2023-12-26T03:05:10Z)
Emergence of non-Abelian SU(2) invariance in Abelian frustrated fermionic ladders [37.69303106863453]
We consider a system of interacting spinless fermions on a two-leg triangular ladder with $pi/2$ magnetic flux per triangular plaquette. Microscopically, the system exhibits a U(1) symmetry corresponding to the conservation of total fermionic charge, and a discrete $mathbbZ$ symmetry. At the intersection of the three phases, the system features a critical point with an emergent SU(2) symmetry.
arXiv Detail & Related papers (2023-05-11T15:57:27Z)
Photoinduced prethermal order parameter dynamics in the two-dimensional large-$N$ Hubbard-Heisenberg model [77.34726150561087]
We study the microscopic dynamics of competing ordered phases in a two-dimensional correlated electron model. We simulate the light-induced transition between two competing phases.
arXiv Detail & Related papers (2022-05-13T13:13:31Z)
Non-Gaussian superradiant transition via three-body ultrastrong coupling [62.997667081978825]
We introduce a class of quantum optical Hamiltonian characterized by three-body couplings. We propose a circuit-QED scheme based on state-of-the-art technology that implements the considered model.
arXiv Detail & Related papers (2022-04-07T15:39:21Z)
Rotating Majorana Zero Modes in a disk geometry [75.34254292381189]
We study the manipulation of Majorana zero modes in a thin disk made from a $p$-wave superconductor. We analyze the second-order topological corner modes that arise when an in-plane magnetic field is applied. We show that oscillations persist even in the adiabatic phase because of a frequency independent coupling between zero modes and excited states.
arXiv Detail & Related papers (2021-09-08T11:18:50Z)
Phase diagram of a distorted kagome antiferromagnet and application to Y-kapellasite [50.591267188664666]
We reveal a rich ground state phase diagram even at the classical level. The presented model opens a new direction in the study of kagome antiferromagnets.
arXiv Detail & Related papers (2021-07-28T18:00:03Z)
Nonuniform phases in the geometrically frustrated dissipative XYZ model [0.0]
We investigate the steady-state phase diagram of the dissipative spin-1/2 XYZ model on a two-dimensional triangular lattice. We find that the steady-state phases of the system are rather rich, in particular there exist various types of nonuniform antiferromagnetic phases.
arXiv Detail & Related papers (2020-11-29T06:21:01Z)
Anomalous in-gap edge states in two-dimensional pseudospin-1 Dirac insulators [0.0]
Quantum materials that host a flat band, such as pseudospin-1 lattices and magic-angle twisted bilayer graphene, can exhibit drastically new physical phenomena. We report a surprising class of electronic in-gap edge states in pseudospin-1 materials. In particular, we find that, in two-dimensional gapped (insulating) Dirac systems of massive spin-1 quasiparticles, in-gap edge modes can emerge through only an em electrostatic potential applied to a finite domain.
arXiv Detail & Related papers (2020-05-20T16:44:19Z)
Observation of Time-Reversal Invariant Helical Edge-Modes in Bilayer Graphene/WSe$_2$ Heterostructure [0.4899818550820575]
Topological insulators, along with Chern insulators and Quantum Hall insulator phases, are considered as paradigms for symmetry protected topological phases of matter. This article reports the experimental realization of the time-reversal invariant helical edge-modes in bilayer graphene/monolayer WSe$$-based heterostructures.
arXiv Detail & Related papers (2020-03-23T14:22:32Z)

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