Quantum Gravity Peer Review Journals:

 Quantum gravity (QG) is a field of hypothetical material science that tries to portray gravity as indicated by the standards of quantum mechanics, and where quantum impacts can't be overlooked, for example, in the region of dark openings or comparative smaller astrophysical items where the impacts of gravity are solid. Three of the four basic powers of material science are portrayed inside the system of quantum mechanics and quantum field hypothesis. The current comprehension of the fourth power, gravity, depends on Albert Einstein's general hypothesis of relativity, which is planned inside the totally extraordinary structure of old style material science. In any case, that portrayal is fragmented: depicting the gravitational field of a dark opening in the general hypothesis of relativity, physical amounts, for example, the space time shape veer at the focal point of the dark gap. This signals the breakdown of the general hypothesis of relativity and the requirement for a hypothesis that goes past general relativity into the quantum. At separations extremely near the focal point of the dark gap (closer than the Planck length), quantum vacillations of spacetime are relied upon to assume a significant job. To depict these quantum impacts a hypothesis of quantum gravity is required. Such a hypothesis ought to permit the portrayal to be stretched out nearer to the inside and may even permit a comprehension of material science at the focal point of a dark gap. On increasingly formal grounds one can contend that an old style framework can't reliably be coupled to a quantum one.