A success in theoretical physics has created a new understanding of the formation of a black hole, suggesting that they can emerge purely with gravity effects without the need for foreign substance. This advancement challenges the long -standing perceptions derived from general relativity, where the uniqueness is predicted to be present at the origin of the black hole, which leads to the breakdown of physical laws. Researchers at the University of Barcelona (ICCUB) Institute of Cosmos Sciences have put forward a mathematical structure, showing that an infinite chain of high-order gravitational reforms can end, which can eliminate ecosystems, which regular black holes existing It paves the way.
The new model challenges previous perceptions
As Study Published in Physics letter B, traditional models depended on foreign substances – interpretations with negative energy density – to combat ecosystems. However, it establishes new research that amendment to Einstein’s equations, as predicted by quantum gravity, is sufficient to generate black holes without ecosystems. Conclusions suggest that pure gravity alone can achieve this phenomenon, strengthening the theoretical structure required to explain the formation of black holes.
Physics letter B, Pablo A. In an interview with Cano, a researcher from the Department of Quantum Physics and Astronomy in ICCub, StatedFor pHys.org that the beauty of construction is that it is only based on the modifications of Einstein equations predicted by quantum gravity. No other components are required.
Application for high-dimensional space-time
Research mainly applies to space-time dimensions of five or more due to technical simplification in calculation. Despite this, scientists believe that similar conclusions will be in four-dimensional space-time, which align with the currently understood physical universe. Robbie Henigger, a researcher at ICCUB, explained to Phys.org, that most of the scientists agree that the ecology of general relativity should eventually be solved, although how this process can be achieved, much less about how this process can be achieved, very low. goes. He further stated that his work provides the first mechanism to achieve it in a strong way, which is under some symmetry beliefs.
Implication for astronomy physics and thermodynamics
Beyond addressing ecosystems, the study also evaluates the thermodynamic properties of these black holes, confirming that they follow the first law of thermodynamics. The strength of this theoretical model strengthens its potentially projection to real astronomy scenarios. The plans are to examine the implications in four-dimensional space-time, assess the stability and detect the significant observation signatures of these regular black holes.
Heniger further stated that it is not yet clear how nature prevents the formation of ecosystems in the universe, but they are hoping that their model will help them gain better understanding of this process.
With the expectations of important conclusions in the near future, the fate of the substance falling in these eccentricity-free black holes continues.
