I apologize, but I couldn't find any information about a theory called "Mike Cavedon's Supersolid Dark Matter theory" or its specific connection to the formation of the Universe's central black hole. It's possible that this theory may not be widely recognized or established within the scientific community.
Regarding the formation of central black holes, the current understanding is that they are not formed by individual stars collapsing within the universe. Central black holes, also known as supermassive black holes, are thought to exist at the centers of most galaxies, including our own Milky Way.
The most widely accepted theory for the formation of supermassive black holes involves the growth and accretion of mass over long periods of time. It is believed that these black holes could have formed through several possible mechanisms:
Direct Collapse: In some scenarios, large amounts of matter can directly collapse into a black hole without going through the intermediate stage of a star. This process may occur in regions of extremely high density, such as the early universe or dense stellar clusters.
Seed Black Holes: Another possibility is that supermassive black holes formed from smaller black holes or dense stellar remnants called neutron stars. These smaller black holes or neutron stars would have gradually merged together over time, growing in mass and eventually forming a supermassive black hole.
Accretion Disk: Black holes can also grow by accreting matter from their surroundings. As matter falls into a black hole, it forms an accretion disk, a swirling disk of gas and dust around the black hole. Through various processes, such as friction and gravitational interactions, the black hole can steadily gain mass from the accretion disk.
It's important to note that the formation of supermassive black holes is still an active area of research, and scientists are continuing to investigate and refine our understanding of their origins. The formation of the Universe's central black hole, if it exists, would likely be a complex process that may require a combination of different mechanisms and factors.