Quantization of a self-dual conformal theory in (2 + 1) dimensions

Quantization of a self-dual conformal theory in (2 + 1) dimensions

A bstract Compact nonlocal Abelian gauge theory in (2 + 1) dimensions, also known as loop model, is a massless theory with a critical line that is explicitly covariant under duality transformations. It corresponds to the large N F limit of self-dual electrodynamics in mixed three-four dimensions. It...

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Veröffentlicht in:The journal of high energy physics 2020-02, Vol.2020 (2), p.1-35, Article 116
Hauptverfasser: Andreucci, Francesco, Cappelli, Andrea, Maffi, Lorenzo
Format: Artikel
Sprache:eng
Schlagworte:
Classical and Quantum Gravitation
Conformal Field Theory
Duality in Gauge Field Theories
Electrodynamics
Elementary Particles
Excitation
Field Theories in Lower Dimensions
Gauge theory
High energy physics
Mapping
Order disorder
Partitions (mathematics)
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Quantum Physics
Regular Article - Theoretical Physics
Relativity Theory
String Theory
Three dimensional models
Topological insulators
Topological States of Matter
Toruses
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Zusammenfassung:A bstract Compact nonlocal Abelian gauge theory in (2 + 1) dimensions, also known as loop model, is a massless theory with a critical line that is explicitly covariant under duality transformations. It corresponds to the large N F limit of self-dual electrodynamics in mixed three-four dimensions. It also provides a bosonic description for surface excitations of three-dimensional topological insulators. Upon mapping the model to a local gauge theory in (3 + 1) dimensions, we compute the spectrum of electric and magnetic solitonic excitations and the partition function on the three torus T 3 . Analogous results for the S 2 × S 1 geometry show that the theory is conformal invariant and determine the manifestly self-dual spectrum of conformal fields, corresponding to order-disorder excitations with fractional statistics.
ISSN:1029-8479
1029-8479
DOI:10.1007/JHEP02(2020)116