Dark matter neutrinos: A proposed mechanism for the stellar rotational velocity curve of the Milky Way. (arXiv:2006.16635v1 [astro-ph.GA])
<a href="http://arxiv.org/find/astro-ph/1/au:+Panteli_A/0/1/0/all/0/1">Andrew Panteli</a>
The inconsistency of the observed rotational velocity curve of the Milky Way
with the current theory of gravitational dynamics is well documented. The curve
implies the presence of significantly more mass, or dark matter, than is
observable. Current models estimate the amount of dark matter to be of the
order of 85% of total matter. This paper explores relativistic neutrinos as a
potential source of dark matter and proposes a crude binary star accretion
model mechanism at the centre of the Milky Way for their production. The
results show this to be consistent with the current theory of gravitation, the
observed velocity curve of the Milky Way and current estimates of the
proportion of dark matter to baryonic matter of the order of 85%.
The inconsistency of the observed rotational velocity curve of the Milky Way
with the current theory of gravitational dynamics is well documented. The curve
implies the presence of significantly more mass, or dark matter, than is
observable. Current models estimate the amount of dark matter to be of the
order of 85% of total matter. This paper explores relativistic neutrinos as a
potential source of dark matter and proposes a crude binary star accretion
model mechanism at the centre of the Milky Way for their production. The
results show this to be consistent with the current theory of gravitation, the
observed velocity curve of the Milky Way and current estimates of the
proportion of dark matter to baryonic matter of the order of 85%.
http://arxiv.org/icons/sfx.gif
