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Theoretical physicists working at a blackboard collaboration pod in the Beecroft building.
Credit: Jack Hobhouse

Paul Fendley

Professor and Senior Research Fellow, All Souls College

Sub department

  • Rudolf Peierls Centre for Theoretical Physics

Research groups

  • Condensed Matter Theory
paul.fendley@physics.ox.ac.uk
Telephone: 01865 (2)73957
Rudolf Peierls Centre for Theoretical Physics, room 70.32
  • About
  • Publications

Generalizations of Kitaev's honeycomb model from braided fusion categories

(2025)

Authors:

Luisa Eck, Paul Fendley
More details from the publisher

Generalizations of Kitaev's honeycomb model from braided fusion categories

(2025)

Authors:

Luisa Eck, Paul Fendley
More details from the publisher

Generalizations of Kitaev's honeycomb model from braided fusion categories

(2025)

Authors:

Luisa Eck, Paul Fendley
More details from the publisher

Pivoting through the chiral-clock family

SciPost Physics SciPost 18 (2025) 094

Authors:

Nick G Jones, Abhishodh Prakash, Paul Fendley

Abstract:

The Onsager algebra, invented to solve the two-dimensional Ising model, can be used to construct conserved charges for a family of integrable $N$-state chiral clock models. We show how it naturally gives rise to a "pivot" procedure for this family of chiral Hamiltonians. These Hamiltonians have an anti-unitary CPT symmetry that when combined with the usual $\mathbb{Z}_N$ clock symmetry gives a non-abelian dihedral symmetry group $D_{2N}$. We show that this symmetry gives rise to symmetry-protected topological (SPT) order in this family for all even $N$, and representation-SPT (RSPT) physics for all odd $N$. The simplest such example is a next-nearest-neighbour chain generalising the spin-1/2 cluster model, an SPT phase of matter. We derive a matrix-product state representation of its fixed-point ground state along with the ensuing entanglement spectrum and symmetry fractionalisation. We analyse a rich phase diagram combining this model with the Onsager-integrable chiral Potts chain, and find trivial, symmetry-breaking and (R)SPT orders, as well as extended gapless regions. For odd $N$, the phase transitions are "unnecessarily" critical from the SPT point of view.
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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
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