Dark Waves: The March Theorem and the Perspective-Based Origin of Dark Matter (A New Approach to Wave Function Collapse and Cosmic Mass Distribution)

Abstract

The March Wave Theorem proposes that wave function collapse is not a fundamental event but a function of observer perspective within an infinite spherical probability wave field. This paper extends this to dark matter, demonstrating that the perceived missing mass in the universe arises from quantum states that remain uncollapsed from our perspective due to observer-dependent gravitational bias. These equations predict dark matter fraction as a function of gravitational field strength, aligning with cosmological observations, weak gravitational lensing maps, and known mass distributions in galaxy clusters. A relativistic correction factor successfully refines predictions for extreme gravity environments, including black holes, planetary cores, and stellar interiors.

Introduction

Dark matter, an invisible component comprising ~27% of the universe’s mass-energy content, has remained a mystery. Standard cosmological models invoke non-luminous, weakly interacting massive particles (WIMPs) to explain gravitational effects seen in galaxy rotation curves and cosmic structure formation. However, no direct detection of dark matter or these particles has been made.

The March Theorem challenges the assumption that wave function collapse is an absolute event. Instead, it is proposed that quantum states persist as continuous wave functions across an infinite probability field, and collapse is simply a function of observational perspective. If true, dark matter may not be missing at all, but rather, it exists as a vast portion of uncollapsed quantum wave states that remain unobservable from an observer’s narrow and particular gravitational frame.e essay here, and feel free to provide any feedback.

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Conclusion

This Theorem seeks an elegant and novel solution to the dark matter mystery by redefining the perception of wave function collapse as an observer bias phenomenon. These equations correctly predict dark matter fractions across cosmic environments, aligning with gravitational lensing data, galactic mass distributions, and planetary core structures.

If validated, this model could eliminate the need for exotic dark matter particles like WIMPs and offer a quantum-gravitational framework that unifies the structure of spacetime with quantum mechanics.

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