Related papers: Exact Parent Hamiltonians for All Landau Level States in a Half-flux Lattice

Exact Parent Hamiltonians for All Landau Level States in a Half-flux Lattice

URL: http://arxiv.org/abs/2501.09742v1
Date: Thu, 16 Jan 2025 18:52:19 GMT
Title: Exact Parent Hamiltonians for All Landau Level States in a Half-flux Lattice
Authors: Xin Shen, Guangyue Ji, Jinjie Zhang, David E. Palomino, Bruno Mera, Tomoki Ozawa, Jie Wang,
Abstract summary: Kapit-Mueller model stabilizes lattice analogs of the lowest Landau level states. We discuss how these symmetries enforced gaplessness and singular points for odd Landau level series. Our model points to a large class of tight-binding models with suitable energetic and quantum geometries.
Score: 6.413283313740827
License:
Abstract: Realizing topological flat bands with tailored single-particle Hilbert spaces is a critical step toward exploring many-body phases, such as those featuring anyonic excitations. One prominent example is the Kapit-Mueller model, a variant of the Harper-Hofstadter model that stabilizes lattice analogs of the lowest Landau level states. The Kapit-Mueller model is constructed based on the Poisson summation rule, an exact lattice sum rule for coherent states. In this work, we consider higher Landau-level generalizations of the Poisson summation rule, from which we derive families of parent Hamiltonians on a half-flux lattice which have exact flat bands whose flatband wavefunctions are lattice version of higher Landau level states. Focusing on generic Bravais lattices with only translation and inversion symmetries, we discuss how these symmetries enforced gaplessness and singular points for odd Landau level series, and how to achieve fully gapped parent Hamiltonians by mixing even and odd series. Our model points to a large class of tight-binding models with suitable energetic and quantum geometries that are potentially useful for realizing non-Abelian fractionalized states when interactions are included. The model exhibits fast decay hopping amplitudes, making it potentially realizable with neutral atoms in optical lattices.

Related papers

Measurement-induced Lévy flights of quantum information [38.68022950138448]
We explore a model of free fermions in one dimension subject to frustrated local measurements across adjacent sites. For maximal misalignment, superdiffusive behavior emerges from the vanishing of the measurement-induced quasiparticle decay rate. Our findings show how intricate fractal-scaling entanglement can be produced for local Hamiltonians.
arXiv Detail & Related papers (2025-01-22T14:29:13Z)
Continuum of Bound States in a Non-Hermitian Model [6.229083355999047]
In a Hermitian system, bound states must have quantized energies, whereas extended states can form a continuum. We show how this principle fails for non-Hermitian continuous Hamiltonians with an imaginary momentum and Landau-type vector potential. We present experimentally-realizable 1D and 2D lattice models that can be used to study CLMs.
arXiv Detail & Related papers (2022-10-06T08:09:42Z)
The frustration-free fully packed loop model [4.965221313169878]
We consider a quantum fully packed loop model on the square lattice with a frustration-free projector Hamiltonian and ring-exchange interactions acting on plaquettes. We discuss how the boundary term fractures the Hilbert space into Krylov subspaces, and we prove that the Hamiltonian is ergodic within each subspace. We show that the spectrum is shown to be gapless in the thermodynamic limit with a trial state constructed by adding a twist to the ground state superposition.
arXiv Detail & Related papers (2022-06-03T18:00:04Z)
Partons as unique ground states of quantum Hall parent Hamiltonians: The case of Fibonacci anyons [9.987055028382876]
We present microscopic, multiple Landau level, (frustration-free and positive semi-definite) parent Hamiltonians whose ground states are parton-like. We prove ground state energy monotonicity theorems for systems with different particle numbers in multiple Landau levels. We establish complete sets of zero modes of special Hamiltonians stabilizing parton-like states.
arXiv Detail & Related papers (2022-04-20T18:00:00Z)
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)
Boundary theories of critical matchgate tensor networks [59.433172590351234]
Key aspects of the AdS/CFT correspondence can be captured in terms of tensor network models on hyperbolic lattices. For tensors fulfilling the matchgate constraint, these have previously been shown to produce disordered boundary states. We show that these Hamiltonians exhibit multi-scale quasiperiodic symmetries captured by an analytical toy model.
arXiv Detail & Related papers (2021-10-06T18:00:03Z)
Unification of valley and anomalous Hall effects in a strained lattice [20.789927809771008]
We show that the hopping strengths between neighboring sites are designed by mimicking those between the Fock states in a three-mode Jaynes-Cummings model. The eigenstates in the zeroth Landau level can be represented by the eigenstates of a large pseudo-spin. Our study sheds light on connection between seemingly unrelated topological phases in condensed matter physics.
arXiv Detail & Related papers (2021-03-31T08:44:30Z)
Non-equilibrium stationary states of quantum non-Hermitian lattice models [68.8204255655161]
We show how generic non-Hermitian tight-binding lattice models can be realized in an unconditional, quantum-mechanically consistent manner. We focus on the quantum steady states of such models for both fermionic and bosonic systems.
arXiv Detail & Related papers (2021-03-02T18:56:44Z)
Efimov-like states and quantum funneling effects on synthetic hyperbolic surfaces [3.3073775218038883]
We show that synthetic Poincar'e half-planes and Poincar'e disks support infinitely degenerate eigenstates for any nonzero eigenenergies. Such Efimov-like states exhibit a discrete scaling symmetry and imply an unprecedented apparatus for studying quantum anomaly using hyperbolic surfaces.
arXiv Detail & Related papers (2020-10-11T01:46:07Z)
Tuning the topology of $p$-wave superconductivity in an analytically solvable two-band model [0.0]
We introduce and solve a two-band model of spinless fermions with $p_x$-wave pairing on a square lattice. We show that its phase diagram contains a topologically nontrivial weak pairing phase as well as a trivial strong pairing phase.
arXiv Detail & Related papers (2020-10-01T01:20:46Z)
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)

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