I am a theoretical physicist specializing in quantum field theory, string theory, and quantum information. My research focuses on the interplay between fundamental aspects of quantum gravity, non-perturbative field theory, and quantum many-body dynamics. I have made contributions to double field theory and string theory, including the study of stringy effects arising from momentum and winding modes and the formulation of Seiberg–Witten maps in non-commutative D-brane systems. In addition, my work explores quantum chaos and information scrambling, establishes connections between spectral form factors and out-of-time-ordered correlators, and investigates randomness and thermalization in qubit models. More recently, I have contributed to lattice field theory by developing non-Hermitian fermion formulations that address long-standing issues such as the fermion doubling problem. My research aims to build a unified framework connecting quantum information, strongly coupled systems, and emergent spacetime structures.