t’s openly available to everyone—from professors to students.
The main paper, which derives the key phenomena of general relativity from quantum physics without spacetime curvature (no GR formalism), is intentionally written to be easy to follow.
By contrast, the parts on the emergent fine-structure constant (1/137) and the electron mass (+ leptons mass hierarchy) do require advanced math and physics.
If I learn which sections are unclear or most interesting, I’ll publish a more detailed, step-by-step guide with simpler math.
That’s why I’m sharing the full manuscript with all details now publicly.
You can also invite me to public review communities for it.
The main paper, which derives the key phenomena of general relativity from quantum physics without spacetime curvature (no GR formalism), is intentionally written to be easy to follow.
By contrast, the parts on the emergent fine-structure constant (1/137) and the electron mass (+ leptons mass hierarchy) do require advanced math and physics.
If I learn which sections are unclear or most interesting, I’ll publish a more detailed, step-by-step guide with simpler math. That’s why I’m sharing the full manuscript with all details now publicly.
You can also invite me to public review communities for it.