So, she argues, the collapsing stars bounce as matter released, instead of a logarithmic zero singularity as a black hole.
She says black holes don't exist.
She and Hawking both agree that as a star collapses under its own gravity, it produces Hawking radiation. However, in her new work, Mersini-Houghton shows that by giving off this radiation, the star also sheds mass. So much so that as it shrinks it no longer has the density to become a black hole.So then her research got Stephen Hawking to question the existence of black holes!
So then Professor Stephon Alexander has a new paper with Professor Laura Mersini-Houghton
In order to conclude that black holes don’t exist, she claims to have united general relativity with quantum mechanics, a feat which has been a sort of “holy grail” of modern physics. A unifying theory of this sort has thus far proved elusive despite the best efforts of the physics community.https://arstechnica.com/science/2015/03/completely-implausible-a-controversial-paper-exists-but-so-do-black-holes/
So her views are dismissed by mainstream science.
the negative particle is only negative when its total gravitational binding energy involved with being inside the black hole is taken into account. Locally (meaning to anything else inside the black hole), it’s positive and it doesn’t have an anti-gravitational force on its immediate surroundings, according to Hamilton. Therefore it shouldn’t act like it’s modeled in Mersini-Houghton’s work.and so what to make of the LIGO data on the neutron star collapse?
the resulting collapsed object will always be a neutron star, never a black hole.But Stephen Hawking in a way agrees with Professor Laura Mersini-Houghton:
Stephen Hawking: 'There are no black holes'
Notion of an 'event horizon', from which nothing can escape, is incompatible with quantum theory, physicist claims.
Virtual particles in space act as magnetic prisms, aligning light
Quantum particles seen distorting light from a neutron star.
The vacuum of space isn’t as empty as it seems. Astronomers using the Very Large Telescope in Chile have just watched virtual particles in space acting like prisms, aligning the light from a neutron star.
First Signs of Weird Quantum Property of Empty Space?
https://www.ras.org.uk/.../2923-first-signs-of-weird-quantum-property-of-empty-spac...
Nov 30, 2016 - As they become aligned the light becomes polarised, and this polarisation ... Neutron stars are the very dense remnant cores of massive stars — at least 10 ... space is full of virtual particles that appear and vanish all the time.
First signs of weird quantum property of empty space? Neutron star ...
https://www.sciencedaily.com/releases/2016/11/161130082804.htm
Quantum Effects Stop the Formation of Black Holes? - viXra
vixra.org/pdf/1410.0162v1.pdf
by G Rajna
merging two seemingly conflicting theories, Laura Mersini-Houghton, ... Before a black hole can form, the dying star swells one last time and then explodes. .... samples for one direction is the Neutron decay, and Hydrogen fusion is the ...
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