Hydrodynamics of the dark superfluid: III. Superfluid Quantum Gravity
Résumé
Having described in previous articles dark energy, dark matter and quantum vacuum as different aspects of a dark superfluid which permeates the universe and analyzed fundamental massive particles as vortices in this superfluid, we reflect here on the Bernoulli pressure observed in quantum vortices, to propose it as the mechanism of quantum gravity. In this view, the dark superfluid surrounding a particle would be attracted toward it: a pressure gradient along with a velocity field would manifest around the particle and would be currently interpreted as the gravitational field. We call this hypothesis Superfluid Quantum Gravity. Here the hydrodynamics of the dark superfluid would replace the curved space-time of general relativity still respecting, as necessary, all its predictions. Here the picture of gravity is that of an apparent force driven by spin. Moreover, when this model is applied to a quadrupole dynamics, gravitational waves arise as negative pressure waves through the dark superfluid. The theory is verifiable via laser measurements parallel to the gravitational field, with synchronized clocks (source-detector) and no reflections, to demonstrate the gravitational field as an inflow of dark superfluid.
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