Three more simple questions Felix.
a) What are your 'strings' made of? Matter or Energy?
b) Have you been able to quantize time using a chronon?
c) What effect would ether have on the propagation of a photon?
Quote:
Originally Posted by Felix Schrodinger  Hi Dippy
(1) A chronon, in my model, is the 'particle' of time - I use the term particle loosley. Chronons are part of the aether and are like simple strings emitted in a very regular manner but with apparently random magnitude. Each and every node of the aether (the 'masons') emits a chronon at a predetermined interval - possibly the Planck time. Each chronon string is of a different length and the length governs its effect on the probability function: P(a)^2 + P(b)^2 + P(c)^2 must be > CV
for a waveform to collapse and a pair of real particles to form as the matter we experience in the real world.
[P(a) is the probability for particle 'a'; P(b) is the probability for particle 'b' and P(c) is the effect from the chronon. CV is the critical value that must be exceeded for the waveform to collapse]
I envisage a chronon to be like a tape measure, which can be pulled out from its holder to any desired length up to its maximum, and the tape holder mimics the function of the mason. It is this digital appearance of the chronons which controls the motion of particles as they cannot exceed the critical value of probability, and hence collapse from the waveform, without one being present.
(2) The connections linking the masons together are gravitons, which again consist of string emitted by the masons. They are semi rigid links and form a cubic structure, the masons being the nodes at each corner of the cubes. It is the stretching and shrinkage of these links, in the presence of mass, which creates the distortion of space which forms the basis of GR. The gravitons are part of the aether structure and only bond with eachother. I suspect that this relates to their spin (which is reputedly = 2) but have not worked this through.
Regards
Felix
PS - my 'string' has no connection with that of 'string theory'. |