The vacuum as a Lagrangian subspace
Daniele Colosi (ENES-Morelia-UNAM), Robert Oeckl (CCM-UNAM)

TL;DR
This paper introduces a unified framework for vacuum states in linear quantum field theory on curved spacetime, based on Lagrangian subspaces, enabling localized and generalized vacuum concepts with practical selection methods.
Contribution
It generalizes the notion of vacuum in quantum field theory using Lagrangian subspaces, allowing localization and new vacuum selection techniques involving localized Wick rotation.
Findings
Unified framework for vacua using Lagrangian subspaces
Examples in various spacetime geometries like Minkowski, Rindler, Euclidean, de Sitter
Simple formula for expectation values in generalized vacua
Abstract
We unify and generalize the notions of vacuum and amplitude in linear quantum field theory in curved spacetime. Crucially, the generalized notion admits a localization in spacetime regions and on hypersurfaces. The underlying concept is that of a Lagrangian subspace of the space of complexified germs of solutions of the equations of motion on hypersurfaces. Traditional vacua and traditional amplitudes correspond to the special cases of definite and real Lagrangian subspaces respectively. Further, we introduce both infinitesimal and asymptotic methods for vacuum selection that involve a localized version of Wick rotation. We provide examples from Klein-Gordon theory in settings involving different types of regions and hypersurfaces to showcase generalized vacua and the application of the proposed vacuum selection methods. A recurrent theme is the occurrence of mixed vacua, where…
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