We propose SynchronoGeometry, a novel framework in which the accelerated expansion of the univers... more We propose SynchronoGeometry, a novel framework in which the accelerated expansion of the universe arises from local temporal asynchronies rather than a mysterious dark energy. In this model, each point in spacetime possesses an intrinsic rhythm of time, leading to subtle mismatches across cosmic scales. These accumulated temporal offsets naturally stretch space, producing observational effects identical to those attributed to dark energy. The theory predicts measurable deviations in the dark energy equation of state, w(z), which can be tested by missions such as Euclid, JWST, and DESI. If confirmed, SynchronoGeometry may redefine cosmic acceleration-not as a force, but as a rhythm embedded in the fabric of spacetime.
We construct a physical model in which: • Global time t is the independent variable. • Particle p... more We construct a physical model in which: • Global time t is the independent variable. • Particle position x(t) evolves over global time. • The force acting on the particle depends on both position and a local time t loc (x), which varies with spatial location.
This paper introduces a new class of geometric structure, termed SynchronoGeometry, which integra... more This paper introduces a new class of geometric structure, termed SynchronoGeometry, which integrates localized temporal rhythms into the spatial configuration of manifolds. Unlike conventional geometries that treat time as an external parameter, SynchronoGeometry assigns an intrinsic time value to each point in space, resulting in dynamic metrics and temporally modulated geodesics. The proposed framework paves the way for modeling systems where localized time variation influences curvature and form-offering potential applications in theoretical physics, interactive media design, and cognitive simulation.
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Papers by Saadat Samadi