Paul Fendley

Bipartite Sachdev-Ye models with Read-Saleur symmetries

Physical Review B American Physical Society (APS) 110:12 (2024) 125140

Authors:

J Classen-Howes, P Fendley, A Pandey, Sa Parameswaran

Abstract:

<jats:p>We introduce an <a:math xmlns:a="http://www.w3.org/1998/Math/MathML"><a:mrow><a:mi>SU</a:mi><a:mo>(</a:mo><a:mi>M</a:mi><a:mo>)</a:mo></a:mrow></a:math>-symmetric disordered bipartite spin model with unusual characteristics. Although superficially similar to the Sachdev-Ye (SY) model, it has several markedly different properties for <b:math xmlns:b="http://www.w3.org/1998/Math/MathML"><b:mrow><b:mi>M</b:mi><b:mo>≥</b:mo><b:mn>3</b:mn></b:mrow></b:math>. In particular, it has a large nontrivial nullspace whose dimension grows exponentially with system size. The states in this nullspace are frustration-free and are ground states when the interactions are ferromagnetic. The exponential growth of the nullspace leads to Hilbert-space fragmentation and a violation of the eigenstate thermalization hypothesis. We demonstrate that the commutant algebra responsible for this fragmentation is a nontrivial subalgebra of the Read-Saleur commutant algebra of certain nearest-neighbor models such as the spin-1 biquadratic spin chain. We also discuss the low-energy behavior of correlations for the disordered version of this model in the limit of a large number of spins and large <c:math xmlns:c="http://www.w3.org/1998/Math/MathML"><c:mi>M</c:mi></c:math>, using techniques similar to those applied to the SY model. We conclude by generalizing the Shiraishi-Mori embedding formalism to nonlocal models, and apply it to turn some of our nullspace states into quantum many-body scars.</jats:p> <jats:sec> <jats:title/> <jats:supplementary-material> <jats:permissions> <jats:copyright-statement>Published by the American Physical Society</jats:copyright-statement> <jats:copyright-year>2024</jats:copyright-year> </jats:permissions> </jats:supplementary-material> </jats:sec>

Pivoting through the chiral-clock family

(2024)

Authors:

Nick G Jones, Abhishodh Prakash, Paul Fendley

Abstract:

SciPost Submission Detail Pivoting through the chiral-clock family

Generalizations of Kitaev's honeycomb model from braided fusion categories

(2024)

Authors:

Luisa Eck, Paul Fendley

Pivoting through the chiral-clock family

(2024)

Authors:

Nick G Jones, Abhishodh Prakash, Paul Fendley

From the XXZ chain to the integrable Rydberg-blockade ladder via non-invertible duality defects

SciPost Physics SciPost 16:5 (2024) 127

Authors:

Luisa Eck, Paul Fendley

Abstract:

Strongly interacting models often possess "dualities" subtler than a one-to-one mapping of energy levels. The maps can be non-invertible, as apparent in the canonical example of Kramers and Wannier. We analyse an algebraic structure common to the XXZ spin chain and three other models: Rydberg-blockade bosons with one particle per square of a ladder, a three-state antiferromagnet, and two Ising chains coupled in a zigzag fashion. The structure yields non-invertible maps between the four models while also guaranteeing all are integrable. We construct these maps explicitly utilising topological defects coming from fusion categories and the lattice version of the orbifold construction, and use them to give explicit conformal-field-theory partition functions describing their critical regions. The Rydberg and Ising ladders also possess interesting non-invertible symmetries, with the spontaneous breaking of one in the former resulting in an unusual ground-state degeneracy.