Usuario: guest
No has iniciado sesión
No has iniciado sesión
Type: Preprint
Complex Structures for QFT in Globally Hyperbolic Spacetimes
Abstract:
We develop a rigorous method to parametrize conserved complex structures for Klein-Gordon theory in globally hyperbolic spacetimes that admit complete Cauchy surfaces. The complex structures implement unitary quantizations and can be interpreted as corresponding to choices of vacuum. The main ingredient in our construction is a system of operator differential equations. We provide a number of theorems ensuring that all ingredients and steps in the construction are well-defined. We apply the method to exhibit natural quantizations for certain classes of globally hyperbolic spacetimes. In particular, we consider static, expanding and Friedmann-Robertson-Walker spacetimes.
We develop a rigorous method to parametrize conserved complex structures for Klein-Gordon theory in globally hyperbolic spacetimes that admit complete Cauchy surfaces. The complex structures implement unitary quantizations and can be interpreted as corresponding to choices of vacuum. The main ingredient in our construction is a system of operator differential equations. We provide a number of theorems ensuring that all ingredients and steps in the construction are well-defined. We apply the method to exhibit natural quantizations for certain classes of globally hyperbolic spacetimes. In particular, we consider static, expanding and Friedmann-Robertson-Walker spacetimes.
Keywords: quantum field theory,
curved spacetime,
complex structure,
self-adjoint operators
Year Preprint: 2018
Report Number: UNAM-CCM-2018-3
Created: 2018-11-30 12:32:00
Referencia no revisada
Autores Institucionales Asociados a la Referencia: