Cosmology and Gravitation Theories

Review of numerical simulation methods for fuzzy dark matter, examining wave-based and fluid-based algorithms for resolving ultralight boson dynamics on galactic scales.

Numerical study of self-gravitating bosonic systems reveals critical thresholds for equilibrium and stability in the nonrelativistic regime, with applications to ultralight dark matter candidates.

Existence proof of Q-Monopole-Ball solitons with unit magnetic charge using shooting methods, extending classical monopole theory and providing non-gravitational binding mechanisms.

Game-theoretic framework recasts dark energy and dark matter as emergent from cosmic memory and nonequilibrium statistics, resolving tensions and predicting testable signatures.

Explore computational tools for analyzing electroweak phase transitions, including effective potential construction, nucleation rates, and thermodynamic parameters essential for gravitational wave.

Analytical study of gravitational wave propagation in Myers-Perry higher-dimensional rotating black holes using separation of variables techniques to derive explicit solutions.

Exact black hole solution in cored Plummer dark matter halo showing modified photon dynamics, shadows, lensing, quasinormal modes, and novel phase transitions absent in Schwarzschild spacetime.