E. V. Ivashkevich
Published 1998-01-19, updated 1998-01-22Version 2
The model of dense lattice polymers is studied as an example of non-unitary Conformal Field Theory (CFT) with $c=-2$. ``Antisymmetric'' correlation functions of the model are proved to be given by the generalized Kirchhoff theorem. Continuous limit of the model is described by the free complex Grassmann field with null vacuum vector. The fundamental property of the Grassmann field and its twist field (both having non-positive conformal weights) is that they themselves suppress zero mode so that their correlation functions become non-trivial. The correlation functions of the fields with positive conformal weights are non-zero only in the presence of the Dirichlet operator that suppresses zero mode and imposes proper boundary conditions.
Comments: 5 pages, REVTeX, remark is added
Journal: J.Phys.A32:1691-1699,1999
The traveling salesman problem, conformal invariance, and dense polymers
Symmetry-Resolved Entanglement: General considerations, calculation from correlation functions, and bounds for symmetry-protected topological phases
Correlation functions and transport coefficients in generalised hydrodynamics
