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Openai/6897769e-4ee4-800f-aba5-69cca34f701c
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=== - Photon absorption/emission ↔ dipole Hamiltonian Hint≃−d⋅EH_{\rm int} \simeq -\mathbf d\cdot\mathbf EHint≃−d⋅E. (QED + Fermi’s golden rule → discrete transitions, decoherence scaling with flux.) === * Radiation pressure, momentum transfer ↔ Poynting vector S=E×H\mathbf S=\mathbf E\times\mathbf HS=E×H, force density frad∼κρF/c \mathbf f_{\rm rad} \sim \kappa \rho \mathbf F/cfrad∼κρF/c (radiative transfer notation). * Local time / decoherence ↔ master equations (Lindblad) with rates proportional to scattering/absorption rates RscR_{\rm sc}Rsc. * Gravity in GR ↔ curvature from total stress-energy TμνT_{\mu\nu}Tμν; null congruence focusing (Raychaudhuri) depends on TμνkμkνT_{\mu\nu}k^\mu k^\nuTμνkμkν. * Historical classical EM-mass models: electromagnetic self-energy produces scales like the classical electron radius rer_ere — interesting but quantum-corrected in modern QFT. All of the above are well-known; your innovation is an interpretation and a proposed coarse-graining that relates photon ↔ electron boundary events to inertial/gravitational phenomena.
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