Related papers: Measuring topological invariants for higher-order exceptional points in quantum three-mode systems

Measuring topological invariants for higher-order exceptional points in quantum three-mode systems

URL: http://arxiv.org/abs/2402.02839v2
Date: Mon, 02 Dec 2024 06:40:36 GMT
Title: Measuring topological invariants for higher-order exceptional points in quantum three-mode systems
Authors: Pei-Rong Han, Wen Ning, Xin-Jie Huang, Ri-Hua Zheng, Shou-Bang Yang, Fan Wu, Zhen-Biao Yang, Qi-Ping Su, Chui-Ping Yang, Shi-Biao Zheng,
Abstract summary: Experimental characterizations of exceptional topological invariants have been restricted to second-order EPs in classical or semiclassical systems. We here propose an NH multi-mode system with higher-order EPs, each of which is underlain by a multifold-degenerate multipartite entangled eigenstate. Our results extend research of exceptional topology to fully quantum-mechanical models with multipartite entangled eigenstates.
Score: 1.9334835720031431
License:
Abstract: Owing to the presence of exceptional points (EPs), non-Hermitian (NH) systems can display intriguing topological phenomena without Hermitian analogs. However, experimental characterizations of exceptional topological invariants have been restricted to second-order EPs (EP2s) in classical or semiclassical systems. We here propose an NH multi-mode system with higher-order EPs, each of which is underlain by a multifold-degenerate multipartite entangled eigenstate. We implement the NH model by controllably coupling a Josephson-junction-based electronic mode to two microwave resonators. We experimentally quantify the topological invariant for an EP3, by mapping out the complex eigenspectra of the tripartite system along a loop surrounding this EP3 in the parameter space. The nonclassicality of the realized topology is manifested by the observed quantum correlations in the corresponding eigenstates. Our results extend research of exceptional topology to fully quantum-mechanical models with multipartite entangled eigenstates.

Related papers

Exceptional-Point-Induced Nonequilibrium Entanglement Dynamics in Bosonic Networks [0.0]
We investigate how exceptional points (EPs) control multimode entanglement in bosonic chains. Our findings provide a pathway to leveraging EPs for entanglement control and exhibit the potential of non-Hermitian physics in advancing quantum technologies.
arXiv Detail & Related papers (2025-02-07T03:52:29Z)
An exceptional surface and its topology [2.2706551270477613]
Non-Hermitian (NH) systems can display exceptional topological defects without Hermitian counterparts. We investigate the topology for the singularities in an NH three-dimensional system. Our results pave the way for investigations of exceptional topology associated with topological defects with more than one dimension.
arXiv Detail & Related papers (2025-01-08T07:28:39Z)
Topological eigenvalues braiding and quantum state transfer near a third-order exceptional point [19.317159837094202]
We experimentally investigate the eigenvalues braiding and state transfer arising from the encirclement of exceptional points (EP) in a non-Hermitian quantum system. Our findings offer insights into understanding non-Hermitian topological structures and the manipulation of quantum states through dynamic operations.
arXiv Detail & Related papers (2024-12-19T11:02:49Z)
Programmable simulation of high-order exceptional point with a trapped ion [20.656857180988926]
We experimentally demonstrate a native programmable control to simulate a high-order non-Hermitian Hamiltonian in a multi-dimensional trapped ion system. Our results pave the way for scalable quantum simulation of high-dimensional dissipative systems.
arXiv Detail & Related papers (2024-12-13T01:00:22Z)
Higher-order exceptional point in a blue-detuned non-Hermitian cavity optomechanical system [5.001077638364239]
We propose a non-Hermitian three-mode optomechanical system in the blue-sideband regime for predicting the third-order EP (EP3) For the gain (loss) MR, we find only two degenerate EP3s or EP2s can be predicted by tuning enhanced coupling strength. Our proposal provides a potential way to predict higher-order EPs or multiple EP2s and study multimode quantum squeezing around EPs.
arXiv Detail & Related papers (2022-05-15T05:20:59Z)
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)
Neural-Network Quantum States for Periodic Systems in Continuous Space [66.03977113919439]
We introduce a family of neural quantum states for the simulation of strongly interacting systems in the presence of periodicity. For one-dimensional systems we find very precise estimations of the ground-state energies and the radial distribution functions of the particles. In two dimensions we obtain good estimations of the ground-state energies, comparable to results obtained from more conventional methods.
arXiv Detail & Related papers (2021-12-22T15:27:30Z)
Bridging the gap between topological non-Hermitian physics and open quantum systems [62.997667081978825]
We show how to detect a transition between different topological phases by measuring the response to local perturbations. Our formalism is exemplified in a 1D Hatano-Nelson model, highlighting the difference between the bosonic and fermionic cases.
arXiv Detail & Related papers (2021-09-22T18:00:17Z)
Quantum anomalous Hall phase in synthetic bilayers via twistless twistronics [58.720142291102135]
We propose quantum simulators of "twistronic-like" physics based on ultracold atoms and syntheticdimensions. We show that our system exhibits topologicalband structures under appropriate conditions.
arXiv Detail & Related papers (2020-08-06T19:58:05Z)
Unraveling the topology of dissipative quantum systems [58.720142291102135]
We discuss topology in dissipative quantum systems from the perspective of quantum trajectories. We show for a broad family of translation-invariant collapse models that the set of dark state-inducing Hamiltonians imposes a nontrivial topological structure on the space of Hamiltonians.
arXiv Detail & Related papers (2020-07-12T11:26:02Z)
State preparation and measurement in a quantum simulation of the O(3) sigma model [65.01359242860215]
We show that fixed points of the non-linear O(3) sigma model can be reproduced near a quantum phase transition of a spin model with just two qubits per lattice site. We apply Trotter methods to obtain results for the complexity of adiabatic ground state preparation in both the weak-coupling and quantum-critical regimes. We present and analyze a quantum algorithm based on non-unitary randomized simulation methods.
arXiv Detail & Related papers (2020-06-28T23:44:12Z)

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