"If the compression ratio exceeds e to the power of π, it will form Z-wave radiation that continuously absorbs space and perpetually absorbs energy and matter. This is what black holes are," he explained.
"Otherwise, particles are simply in equilibrium with space, not emitting Z-wave radiation externally, and lacking the ability to absorb energy and matter, much like white dwarfs."
"Additionally, my colleagues and I have studied for several days and found that the theory still has flaws. For example, as a basic point, the theory cannot explain the high density of neutron stars, but we can integrate some existing, non-conflicting astrophysical content to perfect it."
