Litcius/Paper detail

Factorizing Defects from Generalized Pinning Fields

Fedor K. Popov, Yifan Wang

2025Physical Review Letters5 citationsDOIOpen Access PDF

Abstract

We introduce generalized pinning fields in conformal field theory that model a large class of critical impurities at large distance, enriching the familiar universality classes. We provide a rigorous definition of such defects as certain unbounded operators on the Hilbert space and prove that when inserted on codimension-one surfaces they factorize the spacetime into two halves. The factorization channels are further constrained by symmetries in the bulk. As a corollary, we solve such critical impurities in the 2D minimal models and establish the factorization phenomena previously observed for localized mass deformations in the 3D O(N) model.

Topics & Concepts

FactorizationUniversality (dynamical systems)PhysicsHilbert spaceHomogeneous spaceSpacetimeConformal mapTheoretical physicsClass (philosophy)Conformal field theoryMathematical physicsRotational symmetrySpace (punctuation)Quantum mechanicsMinkowski spaceField (mathematics)Lattice (music)Quantum field theoryFermionPure mathematicsConformal symmetrySpace timeCritical phenomenaMathematicsRenormalization groupCritical exponentAlgebra over a fieldMatrix decompositionBlack Holes and Theoretical PhysicsAlgebraic structures and combinatorial modelsTopological Materials and Phenomena