Holographic Gravity
Center
Peer Reviewed Publications
The Scaling Entropy-Area Thermodynamics and the Emergence of Quantum Gravity
The Scaling Entropy-Area Thermodynamics and the Emergence of Quantum Gravity
This article introduces the “Scaling Entropy-Area Thermodynamics” (SEAT), a unified framework
claiming that all gravitational systems’ entropy scales with their surface, rather their volume, allowing gravity to be explained as an emergent phenomenon.
The entropy of the entangled Hawking radiation.
The entropy of the entangled Hawking radiation.
This article unifies quantum mechanics and general relativity through entropic information theory, resolving the black hole information paradox by linking mass-energy-information equivalence, fine-grained entropy, and the Ryu-Takayanagi conjecture, connecting Hawking radiation with gravitational entropy.
Informational Nature of Dark Matter and Dark Energy and the Cosmological Constant.
Informational Nature of Dark Matter and Dark Energy and the Cosmological Constant
This article focuses on the informational nature of dark matter and dark energy, proposing they emerge as quantifiable phenomena tied to entropy and Landauer's principle. His approach reduces the cosmological constant's discrepancy by 120 orders of magnitude, linking dark energy to vacuum energy.
Theoretical Possibility of Quantum Stabilization of Traversable Wormholes
Theoretical Possibility of Quantum Stabilization of Traversable Wormholes
This article explores stabilizing Morris-Thorne wormholes via quantum mechanics. It incorporates dark matter and dark energy as negative mass and energy using entropic information theory, reducing vacuum energy and redefining stability criteria for traversable wormhole.