A super-relativity theory is observed as the matrix of quintessent matter.
Today, a new relativity theory is explored as quintessent science introduces a new form of quant matter. The theory of many-worlds introduces a quant matter to alchemical science. Introducing the quant sized matter as a possible theorem by hypothese, is a time-like matter.
Quant sized matter is a solution to the many-worlds theory, as reductionism. The solution is to identify matter as a chemical equivalence in recent observations made to neutrinos. The chemical equivalence is the anti-state matter of neutrinos. The nature of equivalence derives as a chemical state of the anti-state matter in neutrinos, as a result of a temperature equivalence. An introduction to solid state physics possesses the anti-state theory as a presumable prime state of resolution in anti-quark. Thus the primary temperature should reach an isolated measurement to introduce gravity. Introducing finite states to anti-gravity particles, introduces the tau-neutrino to physics. Finite anti-gravity particles introduce the tau to neutrinos with anti-gravity spin. The finite spin introduces anti-gravity particles to solid state physics. Thus the finite matter is the anti-particle spin, in the equivalent of anti-particle neutrino. The finite tau-neutrino value is an antiparticle spin. Decoherence formulates this order as a gravitational answer. The neutrinos antiparticle spin is a decoherence factor in active gravitation. The neutrino is a gravity constant measured as a decoherence factor by primary wave function. Measured as an anti-gravity constant, the neutrino value is measured in relativity constants, as the mass function in wave relativity.
A super relativity theory must understand the cosmic variance as a neutrino value, to result in the constants. Finding neutrino variance in a constellation, should connect us to the future result.
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