Between these two extremes however there is the atomic window where the harmonic of the sub atomic particle matches the conditions of the atomic window, within this band the sub atomic particle can penetrate the shell of the atom and enter the dynamic graviton field within the internal structure of the atom.

The sub atomic particle will be travelling considerably faster than the rotating atomic core of the atom and will act like a whip on a top, imparting vector energy into the graviton core which in effect adds energy to keep the graviton field of the atom in motion and stable. Energy is passed from the spin of the energy nodes in the sub atomic particle to the energy nodes of the super ring. causing it to rotate faster.

If the graviton field does not keep on obtaining this input of energy it will dissipate and eventually collapse. The sub atomic particle pumps the atom with energy but all this energy cannot stay within the atom or it will explode. The energy within the atom is held by expanding the graviton core which pushes against the graviton gate as described in the previous section but here we have an alien sub atomic particle trapped within the graviton core of the atom and under pressure from the graviton gate.

The graviton gate acts like a spring and eventually pushes back to expel the alien sub atomic particle.

The particle will exit through a Atomic Exit window. It will exit however with different characteristics from those it had when it entered the atom. It will have given up energy from its original entry harmonic but by changing harmonic will have accepted the energy characteristics from the graviton core, it will then exit out through the exit window in the negation field of the atom. On exit it will carry away with it some of the energy stored up in the core.

When the sub atomic particle leaves the atom it is carrying with it information from the atom it has just left. Carrying this information it will return inner space between atoms back to the interactive stage one, then either interact with the next atom it meets or bounce off it. The information carried by the sub atomic particle when leaving the atom is a copy of the harmonic of the that atom in the form of pitch, amplitude, offset angle and speed.

The sub atomic particle having interfaced is ejected from the atom through the atomic exit window. The position of this exit window is closer to the position negation spike than the entry window, as the interface particle is now being repelled by the negation and the centrifugal forces of the atom, not the pull of the graviton force. The position of this exit window is relative to the entry window by a constant angle in any individual atom, this angle is the Atomic Reflex Angle. In large atoms there may be many interface and exit windows but each windows relationship with the atomic reflex angle will remain constant.