Field Notebook
Physics as argument, not inventory.
Physics appears here as an ongoing attempt to understand structure in nature: motion, field, matter, light, information, and spacetime. The point of these notes is not simply to list results, but to hold onto arguments, derivations, and conceptual transitions long enough for them to become intelligible.
Amicus Plato, sed magis amica veritas.
Plato is dear, but truth is dearer.
Study Regions
Current Branches
Two branches are developed enough to serve as real entrances into the notebook. One turns toward quantum information and computation; the other toward geometry, gravity, collapse, and horizons.
Computation
Quantum Computing Amplitude, interference, measurement, and the conceptual basis of quantum information.- history and foundational concepts
- state evolution and formal structure
- computational consequences of quantum mechanics
Gravitation
Relativity and Gravitation Classical spacetime geometry, exact solutions, black holes, cosmology, and the threshold of semiclassical gravity.- general relativity as a structured lecture sequence
- collapse, Kerr geometry, and Hawking radiation
- frontier questions where classical theory becomes insufficient
Method
How the notebook works
This section leans toward worked reasoning rather than summary. The notes are written so that definitions, assumptions, and conceptual jumps remain recoverable instead of collapsing into polished conclusions.
Results matter less than the transitions that make them believable.
Each simplification should say what it neglects and why that neglect is permitted.
Notes are meant to be revisited, corrected, and extended rather than merely archived.
Suggested Entry
Begin from the branch you want to think with.
If the question is about states, amplitudes, and algorithms, start in quantum computing. If it is about spacetime, curvature, or horizons, start in relativity and gravitation.