Sorry about the shakes, but I am close.
In a similar way to \(T^{-}\) particles subjected to heat, when \(g^{-}\)particles are subjected to high gravity, they are released from the \(g^{-}\) clouds around the nucleus. They pair up with free \(g^{+}\) particles,
and spins around the positive particle. They create a weak \(E\) field in the plane perpendicular to their spins. It is this \(E\) field that is responsible for the tingling sensations on the skin when you dropped from zero into high gravity.
Till the last singularity!