Gravitational Physics: Thermodynamic origin of field equations; Jacobson's horizon entropy programme with position-dependent coupling constants.
Holographic Cosmology: Information-theoretic derivation of gravitational scales from Bekenstein–Hawking entropy and holographic channel capacity.
Modified Gravity: Position-dependent G from compact extra dimension dynamics; covariant MOND from Kähler compactification.
Quantum Foundations: Geometric origin of Planck's constant from symplectic capacity of compact manifolds; quantum mechanics as dimensional projection.
Computational Geophysics: Numerical simulation of interior dynamics of large planetary and stellar bodies; thermal evolution and structural modelling.
"Quantum mechanics as dimensional projection: a geometric derivation from compact extra dimensions," submitted to Foundations of Physics.
"Gravity from information bounding: the Verlinde coefficient from holographic channel capacity," submitted to Classical and Quantum Gravity.
"MOND from compact dimension compression: entropy, space creation, and the N-K coupling mechanism," submitted to Physical Review D.
"The Einstein equations with position-dependent Planck length," submitted to Classical and Quantum Gravity.
Independent researcher working at the intersection of gravitational thermodynamics, compact extra dimensions, and modified gravity. Current work develops a geometric framework deriving quantum mechanics, the MOND acceleration scale, and covariant gravitational field equations from the symplectic and Kähler structure of string compactifications.