Establishing the statistical physics foundation of warm inflation through Langevin equations, demonstrating stationarity and scale-invariance of perturbations via fluctuation-dissipation relations.
Investigating gravitational wave spectra from warm inflation, revealing thermal, quantum, and cross-term contributions with distinct observational signatures compared to cold inflation.
Dynamical systems analysis of warm inflation models revealing how dissipative coefficients and noncanonical kinetic terms affect inflationary behavior and reheating conditions.
Novel background metric expansion method for constructing rotating charged black hole solutions in higher-dimensional Kaluza-Klein supergravity with (anti-)de Sitter spacetime.