I am a theoretical physicist whose research spans string theory, quantum field theory, and quantum chaos, with particular contributions to double field theory, non-geometric backgrounds, and the dynamics of D-branes in flux backgrounds. I have developed effective models bridging high-energy theory and condensed matter physics, including applications of the adaptive perturbation method to spontaneous symmetry breaking and studies of spectral form factors and out-of-time-ordered correlators in quantum chaotic systems. My work also addresses fundamental computational challenges such as the sign problem in spin-imbalanced Fermi gases. My research is acknowledged for its innovative methods in understanding strongly coupled systems and string theory geometry.