Related papers: Trading Mathematical for Physical Simplicity: Bialgebraic Structures in Matrix Product Operator Symmetries

Trading Mathematical for Physical Simplicity: Bialgebraic Structures in Matrix Product Operator Symmetries

URL: http://arxiv.org/abs/2509.03600v1
Date: Wed, 03 Sep 2025 18:01:22 GMT
Title: Trading Mathematical for Physical Simplicity: Bialgebraic Structures in Matrix Product Operator Symmetries
Authors: Yuhan Liu, Andras Molnar, Xiao-Qi Sun, Frank Verstraete, Kohtaro Kato, Laurens Lootens,
Abstract summary: We show that simple quantum spin chains of physical interest are not included in the rigid framework of fusion categories and weak Hopf algebras.<n>We show that our work provides a bridge between well-understood topological defect symmetries and those that arise in more realistic models.
Score: 20.76275069383104
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Despite recent advances in the lattice representation theory of (generalized) symmetries, many simple quantum spin chains of physical interest are not included in the rigid framework of fusion categories and weak Hopf algebras. We demonstrate that this problem can be overcome by relaxing the requirements on the underlying algebraic structure, and show that general matrix product operator symmetries are described by a pre-bialgebra. As a guiding example, we focus on the anomalous $\mathbb Z_2$ symmetry of the XX model, which manifests the mixed anomaly between its $U(1)$ momentum and winding symmetry. We show how this anomaly is embedded into the non-semisimple corepresentation category, providing a novel mechanism for realizing such anomalous symmetries on the lattice. Additionally, the representation category which describes the renormalization properties is semisimple and semi-monoidal, which provides a new class of mixed state renormalization fixed points. Finally, we show that up to a quantum channel, this anomalous $\mathbb Z_2$ symmetry is equivalent to a more conventional MPO symmetry obtained on the boundary of a double semion model. In this way, our work provides a bridge between well-understood topological defect symmetries and those that arise in more realistic models.

Related papers

Algebraic Fusion in a (2+1)-dimensional Lattice Model with Generalized Symmetries [0.04077787659104315]
We develop a framework for deriving the fusion rules of topological defects in higher-dimensional lattice systems with non-invertible generalized symmetries.<n>We explicitly verify that it acts as a partial isometry on the physical Hilbert space, thereby satisfying a recent generalization of Wigner's theorem applicable to non-invertible symmetries.
arXiv Detail & Related papers (2025-12-24T22:01:15Z)
The Many Faces of Non-invertible Symmetries [4.531080267073934]
In particular, a fusion categorical symmetry $mathcalC$ is shown to induce an algebraic symmetry encoded in a weak Hopf algebra $H$.<n>We present an approach to analyzing the symmetry breaking patterns of weak Hopf algebraic non-invertible symmetries.
arXiv Detail & Related papers (2025-09-22T17:53:19Z)
Sequential Circuit as Generalized Symmetry on Lattice [19.75535599298441]
Generalized symmetry extends the usual notion of symmetry to ones that are of higher-form, acting on subsystems, non-invertible, etc.<n>In this paper, we ask how to obtain the full, potentially non-invertible symmetry action from the unitary sequential circuit.<n>We find that for symmetries that contain the trivial symmetry operator as a fusion outcome, the sequential circuit fully determines the symmetry action and puts various constraints on their fusion.<n>In contrast, for unannihilable symmetries, like that whose corresponding twist is the Cheshire string, a further 1D sequential circuit is needed
arXiv Detail & Related papers (2025-07-30T05:28:27Z)
Anomaly-free symmetries with obstructions to gauging and onsiteability [0.35998666903987897]
We present counterexamples to the lore that symmetries that cannot be gauged or made on-site are necessarily anomalous.<n>Specifically, we construct unitary, internal symmetries of two-dimensional lattice models that cannot be consistently coupled to background or dynamical gauge fields.<n>These symmetries are nevertheless anomaly-free in the sense that they admit symmetric, gapped Hamiltonians with unique, invertible ground states.
arXiv Detail & Related papers (2025-07-28T18:48:39Z)
Generalized Linear Mode Connectivity for Transformers [87.32299363530996]
A striking phenomenon is linear mode connectivity (LMC), where independently trained models can be connected by low- or zero-loss paths.<n>Prior work has predominantly focused on neuron re-ordering through permutations, but such approaches are limited in scope.<n>We introduce a unified framework that captures four symmetry classes: permutations, semi-permutations, transformations, and general invertible maps.<n>This generalization enables, for the first time, the discovery of low- and zero-barrier linear paths between independently trained Vision Transformers and GPT-2 models.
arXiv Detail & Related papers (2025-06-28T01:46:36Z)
Meson spectroscopy of exotic symmetries of Ising criticality in Rydberg atom arrays [39.58317527488534]
Coupling two Ising chains in a ladder leads to an even richer $mathcalD(1)_8$ symmetries.<n>Here, we probe these emergent symmetries in a Rydberg atom processing unit, leveraging its geometry to realize both chain and ladder configurations.
arXiv Detail & Related papers (2025-06-26T14:19:30Z)
Observation of non-Hermitian bulk-boundary correspondence in non-chiral non-unitary quantum dynamics of single photons [31.05848822220465]
In non-Hermitian systems, preserved chiral symmetry is one of the key ingredients, which plays a pivotal role in determining non-Hermitian topology.<n>We theoretically predict and experimentally demonstrate the bulk-boundary correspondence of a one-dimensional (1D) non-Hermitian system with chiral symmetry breaking.
arXiv Detail & Related papers (2025-04-07T09:43:43Z)
Predicting symmetries of quantum dynamics with optimal samples [41.42817348756889]
Identifying symmetries in quantum dynamics is a crucial challenge with profound implications for quantum technologies.<n>We introduce a unified framework combining group representation theory and subgroup hypothesis testing to predict these symmetries with optimal efficiency.<n>We prove that parallel strategies achieve the same performance as adaptive or indefinite-causal-order protocols.
arXiv Detail & Related papers (2025-02-03T15:57:50Z)
A non-semisimple non-invertible symmetry [0.5932505549359508]
We investigate the action of a non-semisimple, non-invertible symmetry on spin chains.<n>We find a model where a product state and the so-called W state spontaneously break the symmetry.
arXiv Detail & Related papers (2024-12-27T13:27:24Z)
Lattice T-duality from non-invertible symmetries in quantum spin chains [0.0]
We explore one of the simplest dualities, T-duality of the compact boson CFT, and its realization in quantum spin chains.<n>In the special case of the XX model, we uncover an exact lattice T-duality, which is associated with a non-invertible symmetry that exchanges two lattice U(1) symmetries.<n>We discuss how some of the anomalies in the CFT are nonetheless still exactly realized on the lattice and how the lattice U(1) symmetries enforce gaplessness.
arXiv Detail & Related papers (2024-12-24T18:59:36Z)
(SPT-)LSM theorems from projective non-invertible symmetries [0.0]
Projective symmetries are ubiquitous in quantum lattice models and can be leveraged to constrain their phase diagram and entanglement structure.<n>In this paper, we investigate the consequences of projective algebras formed by non-invertible symmetries and lattice translations.<n>The projectivity also affects the dual symmetries after gauging $mathsfRep(G)times Z(G)$ sub-symmetries.
arXiv Detail & Related papers (2024-09-26T17:54:21Z)
Entanglement and the density matrix renormalisation group in the generalised Landau paradigm [0.0]
We determine the entanglement structure of ground states of gapped symmetric quantum lattice models.<n>We show that degeneracies in the entanglement spectrum arise through a duality transformation of the original model to the unique dual model.
arXiv Detail & Related papers (2024-08-12T17:51:00Z)
Non-invertible and higher-form symmetries in 2+1d lattice gauge theories [0.0]
We explore exact generalized symmetries in the standard 2+1d lattice $mathbbZ$ gauge theory coupled to the Ising model. One model has a (non-anomalous) non-invertible symmetry, and we identify two distinct non-invertible symmetry protected topological phases. We discuss how the symmetries and anomalies in these two models are related by gauging, which is a 2+1d version of the Kennedy-Tasaki transformation.
arXiv Detail & Related papers (2024-05-21T18:00:00Z)
Identifying the Group-Theoretic Structure of Machine-Learned Symmetries [41.56233403862961]
We propose methods for examining and identifying the group-theoretic structure of such machine-learned symmetries. As an application to particle physics, we demonstrate the identification of the residual symmetries after the spontaneous breaking of non-Abelian gauge symmetries.
arXiv Detail & Related papers (2023-09-14T17:03:50Z)
Equivariant bifurcation, quadratic equivariants, and symmetry breaking for the standard representation of $S_n$ [15.711517003382484]
Motivated by questions originating from the study of a class of shallow student-teacher neural networks, methods are developed for the analysis of spurious minima in classes of equivariant dynamics related to neural nets. It is shown that spurious minima do not arise from spontaneous symmetry breaking but rather through a complex deformation of the landscape geometry that can be encoded by a generic $S_n$-equivariant bifurcation. Results on generic bifurcation when there are quadratic equivariants are also proved; this work extends and clarifies results of Ihrig & Golubitsky and Chossat, Lauterback &
arXiv Detail & Related papers (2021-07-06T06:43:06Z)
Generalized string-nets for unitary fusion categories without tetrahedral symmetry [77.34726150561087]
We present a general construction of the Levin-Wen model for arbitrary multiplicity-free unitary fusion categories. We explicitly calculate the matrix elements of the Hamiltonian and, furthermore, show that it has the same properties as the original one.
arXiv Detail & Related papers (2020-04-15T12:21:28Z)

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