Avoiding the Mass Injection problem for Astrophysical Jets by using Directed Gravity (Relativistic Beaming of the Gravitational Force.)

Astrophysical jets emitted at the poles of many black holes are difficult to explain because the gravitational force is presumed too powerful to allow the escape of massive particles from the hole. However, if Directed Gravity (relativistic beaming of the gravitational force) applies to black holes, then the gravitational force in the polar directions should be reduced, allowing the pressure differential to overcome gravity, such that jets of superfluid neutrons can escape the black hole at the poles.

I first apply the theory to neutron stars, and then I will discuss the state of the theory with regard to black holes. I rely on papers regarding relativistic beaming of gravity, and also the unification of neutron stars and black holes, that are available on my website: Directedgravity.com.