Orbifolds from modular orbits

Daniel Robbins; Thomas Vandermeulen

doi:10.1103/PhysRevD.101.106021

Orbifolds from modular orbits

Daniel Robbins
, Thomas Vandermeulen

Physics

University at Albany

SUNY Albany

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

Given a two-dimensional conformal field theory with a global symmetry, we propose a method to implement an orbifold construction by taking orbits of the modular group. For the case of cyclic symmetries we find that this approach always seems to be consistent, even in asymmetric orbifold cases where the usual construction does not yield a modular invariant theory; our approach keeps modular invariance manifest but may give a result that is equivalent to the original theory. For the case that the symmetry is a subgroup of a continuous flavor symmetry, we can give explicit constructions of the spectrum, with twisted sectors corresponding to a nonstandard group projection on an enlarged twisted sector Hilbert space.

Original language	English
Article number	106021
Journal	Physical Review D
Volume	101
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevD.101.106021
State	Published - May 15 2020

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10.1103/PhysRevD.101.106021

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abstract = "Given a two-dimensional conformal field theory with a global symmetry, we propose a method to implement an orbifold construction by taking orbits of the modular group. For the case of cyclic symmetries we find that this approach always seems to be consistent, even in asymmetric orbifold cases where the usual construction does not yield a modular invariant theory; our approach keeps modular invariance manifest but may give a result that is equivalent to the original theory. For the case that the symmetry is a subgroup of a continuous flavor symmetry, we can give explicit constructions of the spectrum, with twisted sectors corresponding to a nonstandard group projection on an enlarged twisted sector Hilbert space.",

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N2 - Given a two-dimensional conformal field theory with a global symmetry, we propose a method to implement an orbifold construction by taking orbits of the modular group. For the case of cyclic symmetries we find that this approach always seems to be consistent, even in asymmetric orbifold cases where the usual construction does not yield a modular invariant theory; our approach keeps modular invariance manifest but may give a result that is equivalent to the original theory. For the case that the symmetry is a subgroup of a continuous flavor symmetry, we can give explicit constructions of the spectrum, with twisted sectors corresponding to a nonstandard group projection on an enlarged twisted sector Hilbert space.

AB - Given a two-dimensional conformal field theory with a global symmetry, we propose a method to implement an orbifold construction by taking orbits of the modular group. For the case of cyclic symmetries we find that this approach always seems to be consistent, even in asymmetric orbifold cases where the usual construction does not yield a modular invariant theory; our approach keeps modular invariance manifest but may give a result that is equivalent to the original theory. For the case that the symmetry is a subgroup of a continuous flavor symmetry, we can give explicit constructions of the spectrum, with twisted sectors corresponding to a nonstandard group projection on an enlarged twisted sector Hilbert space.

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JO - Physical Review D

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Orbifolds from modular orbits

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