Unusual “electron” object found around binary black holes could clarify the mysteries of dark matter and space-time


A staff of astronomers has found a strange object that could exist around a pair of black holes. The invention could help unravel the identification of dark matter and reveal the character of space-time.

A new analysis found that the particular particle can exist around a pair of black holes in a similar way to how an electron exists around a pair of hydrogen atoms. It is the first time that the existence of a so-called “Gravitational molecule” has never been defined.

To understand what all this means, it should be remembered that in fashionable physics the electron is represented as an area – a mathematical object that has a value for each level of area and time.

An atom is primarily a tiny nucleus surrounded by the electron area. That area of ​​the electron responds to the presence of the nucleus and allows the electron to look only in certain areas.

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Apparently, setting a black space could be described identically. The center of a black space is remarkably similar to the nucleus of an atom, while the surrounding environment is just like what a subatomic particle describes.

The authors of the new research found that specific varieties of fields, known as scalar fields, can exist around binary black holes. It has also been found that they transform into patterns that resemble how electron fields prepare in molecules.

The breakthrough implies that scientists may quickly be able to detect dark matter with current gravitational wave detectors. It raises the tantalizing prospect of shining a light weight in the dark sector of the little understood cosmos.

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