Simulations of gravitational collapse of quantum fields
Description
These are the first numerical simulations of semiclassical collapse of a massless scalar field in four dimensions in spherical symmetry. The codes are written in C. The core idea in the construction of these simulations is the use of a specific quantum state in which expectation values are taken; a coherent state. This allows the semiclassical simulations to straightforwardly connect to classical simulations, as the expectation value of a quantum scalar in the coherent state is exactly equivalent to a classical scalar. Thus, one can construct semiclassical simulations by building upon classical ones, and adding extra quantum mode functions as dynamical variables.
External URI
Subjects
- Quantum field theory
- Gravitational collapse
- Black holes (Astronomy)
- quantum fields, gravitational collapse, semiclassical black holes
- Physical sciences::Physics::Mathematical & theoretical physics
- Q Science::QC Physics::QC170 Atomic physics. Constitution and properties of matter
Divisions
- University of Nottingham, UK Campus
Research institutes and centres
- University of Nottingham, UK Campus
Deposit date
2023-09-28Alternative title
- Simulations of semiclassical black holes
Data type
C code.Funders
- Science & Technology Facilities Council
Collection dates
- 2019-2023
Data collection method
Code written.Resource languages
- en
Publisher
The University of Nottingham
Except where otherwise noted, this item's license is described as Creative Commons by Attribution