Phase-Induced Particle Creation in the Kappa-Gamma Vacuum

Abstract

We develop a two-parameter family of flat-spacetime modes labeled by a deformation scale and a phase angle γ, extending the -plane wave framework to include complex squeezing. The resulting γ basis provides a globally well-defined mode decomposition whose associated vacuum |0,γ is a continuous-mode phase-squeezed state: fixes the squeezing magnitude, while γ sets the squeezing angle in phase space. We identify phase-induced particle creation, in which a relative phase mismatch γ between observers generates a nontrivial particle spectrum governed by (,γ) even when is held fixed. We then derive the two reciprocal Bogoliubov maps: the γ plane-wave operators in terms of '-Rindler operators, and conversely the '-Rindler operators in terms of γ plane-wave operators, providing a closed algebraic bridge between these bases. Finally, by analyzing the Wightman function we show that |0,γ is globally regular, with no singularities beyond those of the standard Minkowski vacuum.