[General] Photon cycle rate in moving particle - faster or slower??
Dr Grahame Blackwell
grahame at starweave.com
Wed Jun 22 03:37:27 PDT 2016
Hi Richard,
I'm not sure where you found your empirical evidence that "The helically-moving charged photon composing the recoiling electron would continue to make two full helical loops for each wavelength (as in a resting electron) but at a higher looping frequency", I'd be very interested to see that. Or is it just a supposition based on SR frame symmetry?
Either way it seems to me that this proposal creates a major problem for SR (and for the established empirical evidence): if the formative energy of a particle is circulating faster in a moving particle, then the effects of that energy flow (i.e. time effects within the particle, such as particle decay - which can ONLY be down to internal energy flow) will occur *faster* in a moving particle than in a static one; this appears to be totally contrary to observed fact, for example in fast-moving muons. [I appreciate that this evidence relates to muons and you're talking about electrons - but if completely different principles apply in those two elementary particles I think we'll need an explanation for why - and some empirical evidence].
Best regards,
Grahame
----- Original Message -----
From: Richard Gauthier
To: Nature of Light and Particles - General Discussion
Cc: Phil Butler ; Anthony Booth ; Stephen Leary ; Mark,Martin van der ; Solomon Freer
Sent: Wednesday, June 22, 2016 5:43 AM
Subject: Re: [General] PS: Matter comprised of light-speed energy
Hi John D,
In Compton scattering, the wavelength of the incoming photon increases, not decreases, as the photon is scattered by the electron. The energy lost by the Compton-scattered x-ray photon is gained by the recoiling electron. The internal wavelength of the circulating spin-1/2 charged photon composing the recoiling electron would decrease corresponding to the increased energy of the recoiling electron. The helically-moving charged photon composing the recoiling electron would continue to make two full helical loops for each wavelength (as in a resting electron) but at a higher looping frequency, corresponding to the shorter wavelength distance along the helix for two helical loops..
Richard
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