This publication follows, recent works (Conte and Rosca, 2017; Conte and Rosca, 2017; Rosca and Conte, 2017; Rosca and Conte, 2017) related to the presence of mini black holes at the zero resulting potential between two masses, in quantum EVTD2 gravity. The equal reports series, arising from the classic gravity, is surprisingly augmented by the balance black body temperatures at fourth power reports for each concerned masses. This is highlighted by simply using the solar system data and the estimations and calculations that have been made during the recent works (Conte and Rosca, 2017; Conte and Rosca, 2017; Rosca and Conte, 2017; Rosca and Conte, 2017). Quantum gravity EVTD2 (Conte and Rosca, 2015; Conte and Rosca, 2015; Conte and Rosca, 2015; Rosca and Conte, 2008; Rosca and Conte, 2015) allows a new approach to the predominant phenomena in gravity that are not considered until now. This, taking into account the ubiquitous electromagnetic phenomena in space-time that structure the gravitational fields as they are generated by various black body photonic radiation of the masses to their black body requivalent temperature (Te). Te of a celestial body, part of a duo, can be determined if Te of the other one is known as well as their ratios and, their masses report.