Ramjet Acceleration of Microscopic Black Holes Within Stellar Material

Abstract

In this work we present a case that Microscopic Black Holes (MBH) of mass 1016\ kg to 3 · 1019\ kg experience acceleration as they move within stellar material at low velocities. The accelerating forces are caused by the fact that a MBH moving through stellar material leaves a trail of hot rarified gas. The rarified gas behind a MBH exerts lower gravitational force on the MBH than the dense gas in front of it. The accelerating forces exceed the gravitational drag forces when MBH moves at Mach number M<M0. The equilibrium Mach number M0 depends on MBH mass and stellar material characteristics. Our calculations open the possibility of MBH orbiting within stars including Sun at Mach number M0. At the end of this work we list some unresolved problems which result from our calculations.