Quantum State and Spontaneous Symmetry Breaking in Gravity
Pedro F. Gonzalez-Diaz
TL;DR
This paper explores how spontaneous symmetry breaking in quantum gravity can produce a well-defined, positive density matrix representing the most general quantum state of Euclidean wormholes, advancing understanding of quantum gravitational states.
Contribution
It introduces a spontaneous symmetry breaking mechanism in quantum gravity to derive a convergent, positive density matrix for Euclidean wormholes, a novel approach in the field.
Findings
Derivation of a positive definite density matrix for Euclidean wormholes
Implementation of spontaneous symmetry breaking in quantum gravity
Establishment of a general quantum state framework for wormholes
Abstract
A spontaneous symmetry breaking mechanism is used in quantum gravity to obtain a convergent positive definite density-matrix as the most general quantum state of Euclidean wormholes
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