Title: On Negative Mass Solution to Gravitational Singularities
Abstract: In this paper, we propose a new model that describes the interior of a black hole. The behaviour of spacetime and matter within a real black hole is discussed by the use of the theory of general relativity and relativistic particle physics, together with the fundamental symmetries in physics. Based on the mathematical indications and predictions of these theories, it is suggested that a time transformation takes place at the black hole’s event horizon, changing the signature of energies and masses of all particles inside the black hole. These negative mass particles would behave antigravitationally inside this one-way causally disconnected region of space, avoiding the collapse of the central singularity. It is demonstrated that the possibility of the time inversion does not require modifications of other current theories and it does not contradict any empirical results either. Additionally, this model solves fundamental problems of the real entity of the black hole, such as the gravitational singularity, and clarifies other questions like the Hawking radiation mechanism by which it reduces the mass of the black hole and the question of what is the mass of the black hole assigned to. One way to test one case of this model is proposed by simulating the inflation resulting from the interaction between negative masses inside, in order to explain supermassive black holes observations.
Publication Year: 2019
Publication Date: 2019-06-01
Language: en
Type: preprint
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