Related papers: A chain of solvable non-Hermitian Hamiltonians constructed by a series of metric operators

A chain of solvable non-Hermitian Hamiltonians constructed by a series of metric operators

URL: http://arxiv.org/abs/2105.04821v1
Date: Tue, 11 May 2021 07:16:57 GMT
Title: A chain of solvable non-Hermitian Hamiltonians constructed by a series of metric operators
Authors: Fabio Bagarello, Naomichi Hatano
Abstract summary: We show how, given a non-Hermitian Hamiltonian $H$, we can generate new non-Hermitian operators sequentially. We apply our method to various versions of the Hatano-Nelson model and to some PT-symmetric Hamiltonians.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We show how, given a non-Hermitian Hamiltonian $H$, we can generate new non-Hermitian operators sequentially, producing a virtually infinite chain of non-Hermitian Hamiltonians which are isospectral to $H$ and $H^\dagger$ and whose eigenvectors we can easily deduce in an almost automatic way; no ingredients are necessary other than $H$ and its eigensystem. To set off the chain and keep it running, we use, for the first time in our knowledge, a series of maps all connected to different metric operators. We show how the procedure works in several physically relevant systems. In particular, we apply our method to various versions of the Hatano-Nelson model and to some PT-symmetric Hamiltonians.

Related papers

Structure learning of Hamiltonians from real-time evolution [22.397920564324973]
We present a new, general approach to Hamiltonian learning that not only solves the challenging structure learning variant, but also resolves other open questions in the area. Our algorithm recovers the Hamiltonian to $varepsilon$ error with total evolution time $O(log (n)/varepsilon)$, and has the following appealing properties. As an application, we can also learn Hamiltonians exhibiting power-law decay up to accuracy $varepsilon$ with total evolution time beating the standard limit of $1/varepsilon2$.
arXiv Detail & Related papers (2024-04-30T18:00:00Z)
Discrete-coordinate crypto-Hermitian quantum system controlled by time-dependent Robin boundary conditions [0.0]
unitary quantum mechanics formulated in non-Hermitian (or, more precisely, in hiddenly Hermitian) interaction-picture representation is illustrated via an elementary $N$ by $N$ matrix Hamiltonian $H(t)$ mimicking a 1D-box system with physics controlled by time-dependent boundary conditions. Our key message is that contrary to the conventional beliefs and in spite of the unitarity of the evolution of the system, neither its "Heisenbergian Hamiltonian" $Sigma(t)$ nor its "Schr"odingerian Hamiltonian" $G(
arXiv Detail & Related papers (2024-01-19T13:28:42Z)
Non-Hermitian Parent Hamiltonian from Generalized Quantum Covariance Matrix [0.0]
We provide a systematical and efficient way to construct non-Hermitian Hamiltonian from a single pair of biorthogonal eigenstates. Our work sheds light on future exploration on non-Hermitian physics.
arXiv Detail & Related papers (2023-07-06T16:27:22Z)
Construction of Non-Hermitian Parent Hamiltonian from Matrix Product States [23.215516392012184]
We propose a new method to construct non-Hermitian many-body systems by generalizing the parent Hamiltonian method into non-Hermitian regimes. We demonstrate this method by constructing a non-Hermitian spin-$1$ model from the asymmetric Affleck-Kennedy-Lieb-Tasaki state.
arXiv Detail & Related papers (2023-01-29T14:13:55Z)
Systematics of quasi-Hermitian representations of non-Hermitian quantum models [0.0]
This paper introduces and describes a set of constructive returns of the description to one of the correct and eligible physical Hilbert spaces $cal R_N(0)$. In the extreme of the theory the construction is currently well known and involves solely the inner product metric $Theta=Theta(H)$. At $j=N$ the inner-product metric remains trivial and only the Hamiltonian must be Hermitized, $H to mathfrakh = Omega,H,Omega-1=mathfrak
arXiv Detail & Related papers (2022-12-07T20:10:58Z)
Towards Antisymmetric Neural Ansatz Separation [48.80300074254758]
We study separations between two fundamental models of antisymmetric functions, that is, functions $f$ of the form $f(x_sigma(1), ldots, x_sigma(N)) These arise in the context of quantum chemistry, and are the basic modeling tool for wavefunctions of Fermionic systems.
arXiv Detail & Related papers (2022-08-05T16:35:24Z)
Some Remarks on the Regularized Hamiltonian for Three Bosons with Contact Interactions [77.34726150561087]
We discuss some properties of a model Hamiltonian for a system of three bosons interacting via zero-range forces in three dimensions. In particular, starting from a suitable quadratic form $Q$, the self-adjoint and bounded from below Hamiltonian $mathcal H$ can be constructed. We show that the threshold value $gamma_c$ is optimal, in the sense that the quadratic form $Q$ is unbounded from below if $gammagamma_c$.
arXiv Detail & Related papers (2022-07-01T10:01:14Z)
A Swanson-like Hamiltonian and the inverted harmonic oscillator [0.0]
We deduce the eigenvalues and the eigenvectors of a parameter-dependent Hamiltonian $H_theta$. We show that there is no need to introduce a different scalar product using some ad hoc metric operator.
arXiv Detail & Related papers (2022-04-21T08:46:42Z)
$PT$-symmetric non-Hermitian Hamiltonian and invariant operator in periodically driven $SU(1,1)$ system [1.2712661944741168]
We study the time evolution of $PT$-symmetric non-Hermitian Hamiltonian consisting of periodically driven $SU (1,1)$ generators. A non-Hermitian invariant operator is adopted to solve the Schr"odinger equation.
arXiv Detail & Related papers (2022-01-01T10:30:22Z)
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)
Hamiltonian operator approximation for energy measurement and ground state preparation [23.87373187143897]
We show how to approximate the Hamiltonian operator as a sum of propagators using a differential representation. The proposed approach, named Hamiltonian operator approximation (HOA), is designed to benefit analog quantum simulators.
arXiv Detail & Related papers (2020-09-07T18:11:00Z)

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