Two-dimensional models as testing ground for principles and concepts of local quantum physics

TL;DR

This paper reviews two-dimensional quantum field theory models as testing grounds for fundamental principles, introduces new modular and duality interpretations, and connects these models to broader QFT concepts and curved spacetime principles.

Contribution

It provides a unified review of 2D models within QFT principles and introduces novel modular and temperature duality interpretations for chiral models.

Findings

Modular interpretation of Diff(S)-covariance in chiral models

Derivation of temperature duality from operator formalism

Connection of thermal duality with SL(2,Z) Verlinde relation

Abstract

In the past two-dimensional models of QFT have served as theoretical laboratories for testing new concepts under mathematically controllable condition. In more recent times low-dimensional models (e.g. chiral models, factorizing models) often have been treated by special recipes in a way which sometimes led to a loss of unity of QFT. In the present work I try to counteract this apartheid tendency by reviewing past results within the setting of the general principles of QFT. To this I add two new ideas: (1) a modular interpretation of the chiral model Diff(S)-covariance with a close connection to the recently formulated local covariance principle for QFT in curved spacetime and (2) a derivation of the chiral model temperature duality from a suitable operator formulation of the angular Wick rotation (in analogy to the Nelson-Symanzik duality in the Ostertwalder-Schrader setting) for rational chiral theories. The SL(2,Z) modular Verlinde relation is a special case of this thermal duality and (within the family of rational models) the matrix S appearing in the thermal duality relation becomes identified with the statistics character matrix S. The relevant angular Euclideanization'' is done in the setting of the Tomita-Takesaki modular formalism of operator algebras. I find it appropriate to dedicate this work to the memory of J. A. Swieca with whom I shared the interest in two-dimensional models as a testing ground for QFT for more than one decade. This is a significantly extended version of an ``Encyclopedia of Mathematical Physics'' contribution hep-th/0502125.