The missing wave quants must be unstable Higgs bosons

I seems the original disturbance, would not stabilize if it started with the Higgs boson, the vacuum density would become unbalanced before it could complete a Higgs mass. So, the Higgs bosons decompose and begin making groups from large to small, and the process is not yet complete. Thus, we are not yet compact to the nominal 198 digit number, and we are carrying fractions. As the vacuum completes the packing, Plank should get more accurate.

I need to triple the power of my colliditron, make the complete sequence 198, and use the unstable Higgs boson as a driver.  The thing should count down to gravity and beyond. Going from Higgs out, we will find a spot where phase, nulls, charge and kinetic energy make a solid group. We will get the atom.

How do we quantize Nulls in imbalance that would cause apparent motion? Pauli dimensions are sub sequences where the Shannon match stays low high. I should plot those, that is a strong clue. They are spots where fractions can reside. Charge is likely those points where two wave quantizations are supported for some packed null set. Motion and charge are really wave phenomena, packed nulls stable.  So, I think its all about the quantization rate mismatch, what the vacuum does to stabilize that. Packed null are very stable, because phase moves at light speed.  Under the restrictions, wave is limited in quantization also, it has to balance with respect to packed nulls. So nulls, mass, set the stage through out.

So, for example, the sequence will have a region where three or four bits of the wave quantizer make the best match.  Those are the spots where wave motion occurs, and much of the wave motion will be swapping with nulls and making mass move.  Degenerations, explosions are points where there is no quantization value for nulls. We should be able to pull out free space impedances, also. I think we can get all that, plus spectral lines and the rest.

What about gravity and beyond? They end up as the least significant bits.  If the sequence is complete, it should count all the way down.

I can take the actual bit sequence coming out, that would be a complex number, mass and wave, and draw the objects as they appear, using both standard and hyperbolic functions.   The quantizer in the thing is a basic macro, most ot the computation is preparation of arrays in the spread sheet. I will try and start posting the sheet elements soon.