We point out that if the baryon number violating neutron-antineutron oscillation is discovered, it would impose strong limits on the departure from Einstein's equivalence principle at a level of one part in 10(19). If this departure owes its origin to the existence of long-range forces coupled to baryon number B (or B - L), it would imply very stringent constraints on the strength of gauge bosons coupling to the baryon number current. For instance, if the force mediating baryon number has strength alpha(B) and its range is larger than a megaparsec, we find the limit to be alpha(B) <= 2 x 10(-57), which is much stronger than all other existing bounds. For smaller range for the force, we get slightly weaker, but still stringent bounds by considering the gravitational potentials of Earth and the Sun.

• 出版日期2016-9-26