New Nonrelativistic Quantum Theory of Cold Dark Matter

TL;DR

This paper introduces a novel nonrelativistic quantum framework for cold dark matter, detailing particle interactions, energy exchange, and predicting a gravitational wave background linked to dark matter halos.

Contribution

It presents a new quantum theory for cold dark matter based on a recent equation, providing insights into particle behavior, constraints on particle mass, and gravitational wave predictions.

Findings

Defines characteristic wavelength of energy quanta

Provides constraints on dark matter particle mass

Predicts a detectable gravitational wave background

Abstract

Cold dark matter is conceived as a gas of massive particles that undergo collisions, interact gravitationaly, and exchange quanta of energy. A new nonrelativistic quantum theory is presented for this model of dark matter, based on recently discovered equation for a spinless, no charge, and free particle. This theory describes the quantum processes undergoing by the particles, specifies the required characteristic wavelength of the quanta of energy, gives constraints on mass of dark matter particles, and predicts a detectable gravitational wave background associated with dark matter halos.