semiclassical astrophysics derived deformation theory locally covariant qft causal fermion systems
Semiclassical stars(i.e. stars described by the semiclassical Einstein field equation) are made rigorous and extended what coexists with it via a new renormalization that’s perturbative multipli- cation rather than perturbative addition. I found epistemological and ethical limits of experimentally detecting such stars for the case when there are any fermions on the stars, and this has supported a duality between fermions and bosons. I develop a multiverse theory from an operator that adds back fermions in the codomain, and suggest it will look like an hourglass when the new universe (i call the saved point universe) does start this way, then constructed a category of stuff in the universe. I showed the domain and codomain of the category coincides under extension. I interpreted hausdorff locally convex vector spaces as matter here. I developed a new formula for the stress energy tensor linking it to the Hamiltonian which also suggests some matrix scaled is the reason we don’t get to see the saved point universe starting as it places bosons in where there should be fermions. I develop a new construction for symmetries such that it’s locally presentable and is generalized at universal algebra level yet still suited under AQFT philosophy. I postulated huge existence dependant on stars and AQFTs under a universe where only stars exist, then postulated a huge similarity between what coexists with stars and AQFTs, and postulated an adjunction between this theory together with symmetries to AQFT together with symmetries. I connected the improved Haag Kasler 2-functor (i.e. a functor that works for AQFT that is actually a stack) deeper to AQFT philosophy. I also made a rigorous version of black hole light rings defined based on its shape, and constructed a quadrant from it which summarises the metaphysics, and hypothesised objects “unaffected” by black holes. I constructed the local to global version of what coexists with stars. I named this theory SUSACF (Semiclassical Universe Stellar Algebraic Causal Fermionically, pronounced sus-saf).
