Quantum gravity without gravitons, as dark energy inflow.
Résumé
It is assumed that dark energy (69.1% of what constitutes our Universe) is quantized and behaves as a superfluid. We hypothesize that the flux described in Gauss's law for gravity is real and corresponds to dark energy absorption into massive particles, driven by spin. A quantum potential consequently arises from the pressure gradient around massive bodies, allowing a formula for quantum gravity without resorting to gravitons. The Newtonian gravitational constant disappears and Einstein field equations, along with their metrics, are presented in a modified form, highlighting the role of dark energy's fluid dynamics. In the approach of superfluid quantum gravity (SQG) any effect predicted in special and general relativity is allowed. We also analyze the consequences of light propagation through dark energy, we explain gravitational waves as negative pressure waves propagating through dark energy, and we show Lorentz factor as the rheogram of dark energy. Thus, considering the unifying and clarifying faculty of a dark energy-based approach to relativity and cosmology, it is suggested to proceed with proposed experimental verifications, with the aim of replacing Einstein's curved space-time with the hydrodynamics of dark energy, to unify relativity with quantum field theory.
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