Aspects of Exactly Solvable Quantum-Corrected 2D Dilaton Gravity   Theories

Adel Bilal

arXiv:hep-th/9307052·hep-th·April 15, 2011

Aspects of Exactly Solvable Quantum-Corrected 2D Dilaton Gravity Theories

Adel Bilal

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TL;DR

This paper reviews exactly solvable quantum-corrected 2D dilaton gravity theories, exploring supersymmetric extensions, canonical formalism, energy theorems, and mass definitions, providing a comprehensive overview of their theoretical properties.

Contribution

It offers a detailed review of quantum-corrected 2D dilaton gravity, including new insights into supersymmetric extensions and energy theorems, expanding understanding of these solvable models.

Findings

01

Supersymmetric extensions of the models are constructed.

02

A positive energy theorem is established for these theories.

03

The canonical formalism and mass definitions are clarified.

Abstract

After reviewing the basic aspects of the exactly solvable quantum-corrected dilaton-gravity theories in two dimensions, we discuss a (subjective) selection of other aspects: a) supersymmetric extensions, b) canonical formalism, ADM-mass, and the functional integral measure, and c) a positive energy theorem and its application to the ADM- and Bondi-masses.

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