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<div style="direction: ltr;font-family: Tahoma;color: #000000;font-size: 10pt;">Dear all,<br>
<br>
Here is the "nature of the photon and electron" preprint, as submitted to SPIE by yesterday's deadline.<br>
<br>
Firstly, apologies to many of you for not including proper references to some of your work in the conference. This is primarily because of work-pressure. I came back to more than a hundred exam scripts- resits - as many as I used to have in the main diet -
and despite a better than eighty five percent pass rate in all my courses. These are not yet all marked and it remains debatable as to whether I will make the deadline tomorrow. There is also a pdr review (not yet started), and multiple PhD candidate viva's
so have been kept too busy to keep up with as much as I would have liked to. Thank you to everyone yet again though for a very stimulating and exciting conference.<br>
<br>
Where the photon paper has solutions of the Maxwell equations (as they stand) alone, this one considers the effect of adding a square-root rest mass density term. This leads to forces capable of confining light into a rotating, lightspeed vortex with toroidal
topology in momentum space. Such topological vortices "rectify" the oscillating field of the photon into a radially inward electron like (or radially outward positron-like) solution. This, then, shows how light may be "confined" as the basis for many of our
models.<br>
<br>
Limits may be calculated for this charge (see paper). These limits encompass the elementary charge - and remain of the correct order. A simple model gives values very close to the charge observed. Small changes to the trajectories (as suggested by Chip for
example) get it exactly right.<br>
<br>
Likewise the spin may be calculated. This is half-integral.<br>
<br>
Further factors, such as the anomalous magnetic moment g-2 may also be calculated. This agrees with the first-order calculation from quantum electrodynamics. The theory encompasses Maxwell theory, reproduces the solution of relativistic quantum mechanics and
underpins quantum electrodynamics.<br>
<br>
Several experimental tests have been suggested for the new theory, looking for radiation from neutral systems, searching for cosmological effects, and investigating spin-polarised scattering. For more details read the paper.<br>
<br>
If this is, indeed, the theory I think it is there is a new first-order theory capable of describing all of light and all of matter. This is an unprecedented opportunity to make progress in the design of collective systems - new materials, new devices and new
technologies.<br>
<br>
I hope I am right. Please help me if you think I am wrong in any detail (likely!). It is only, as Chandra says, by collective effort that proper progress can be made.<br>
<br>
Regards, John W. <br>
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