This is a collection of notes and discussions at THU Physics about quantum gravity. Main reference: Lectures on Quantum Gravity and Black Holes by Thomas Hartman.

Foundational papers for the Symmetrical Convergence (SymC) framework. Establishes χ ≈ 1 as a universal stability boundary governing quantum-classical transitions, parameter emergence, and adaptive system behavior. The theoretical core from which all domain-specific applications derive.

Solutions and miscellaneous notes for "Gauge Fields, Knots and Gravity"

AK-HDPST resolves BHIP by reinterpreting information loss as a structural typing failure — not as a violation of physics, but as the breakdown of projectability across a categorical boundary.

This paper explores the fascinating evolution of string theory, from its origins as a novel approach known as ”bootstrap models” in relativistic particle physics to its current status as a candidate theory of quantum gravity.

“We are not made of matter, but of knots in time — held together by echoes, and unwound by silence.”

Gravitational decoherence rate depends on measurement basis. Testable prediction from Diosi-Penrose model.

Consciousness axioms → complete physics: 15 papers mathematically deriving everything. Includes new calculus, C*-algebras, Millennium solutions. Pure mathematics despite names. All Zenodo archived. The mathematics is presented for examination.