What question did this study set out to answer?

This research aims to resolve the dark matter problem in the Bullet Cluster by introducing dynamic spatial flow due to gravity.

February 19, 2026Open Access

Dynamic Induction of Material Space Flow in the Bullet Cluster

Key Points

This research aims to resolve the dark matter problem in the Bullet Cluster by introducing dynamic spatial flow due to gravity.
Introduced a formal extension of the Theory of Material Space
Applied hydrodynamic analogy of moving gravitational sinks
Analyzed the spatial flow induced by high-velocity stellar clusters
Demonstrated that gravitational effects can be explained without non-baryonic dark matter
Observed intensified spatial flow velocity preceding stellar cluster motion
Explained the offset between gravitational lensing peaks and X-ray emitting gas

Abstract

This paper presents a formal extension of the Theory of Material Space to dy-namic gravitational systems. We address the long-standing "Dark Matter" problem in the Bullet Cluster (1E 0657-558) by introducing the concept of kinematically in-duced spatial flow. We propose that gravity is the physical velocity of a material spatial medium flowing into baryonic matter. By applying a hydrodynamic analogy of "Moving Gravitational Sinks," we demonstrate that high-velocity stellar clusters induce an intensified spatial flow velocity (v) in the region preceding their motion. This "dynamic suction" effect naturally accounts for the observed offset between gravitational lensing peaks and X-ray emitting gas, removing the necessity for non-baryonic Dark Matter particles.

Dynamic Induction of Material Space Flow in the Bullet Cluster

Key Points

Abstract

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