Kappa Plane Wave Modes and Continuous Squeezing in Quantum Field Theory
High Energy Physics - Theory
2025-07-14 v1
Abstract
We introduce a new family of field modes in flat spacetime -- termed -plane wave modes -- constructed from -dependent linear combinations of Minkowski plane waves. These modes define a one-parameter family of vacua, , that smoothly interpolate between different quantizations, reducing to the Minkowski vacuum in the limit . We show that is uniquely characterized as a continuous-mode squeezed vacuum, with frequency-dependent squeezing parameter satisfying . We also derive two Bogoliubov transformations between -plane wave and -Rindler operators, which exhibit a universal form and smoothly interpolate between all known mode decompositions, including those of Minkowski, Rindler, and Unruh quantizations as limiting cases.
Cite
@article{arxiv.2507.08066,
title = {Kappa Plane Wave Modes and Continuous Squeezing in Quantum Field Theory},
author = {Arash Azizi},
journal= {arXiv preprint arXiv:2507.08066},
year = {2025}
}
Comments
18 pages, PRD version