If you can see the photon going around it, I'm certain that the Q is too low. :-)
Fred
Thank you fred. It does not have to be a photon going around in it. It could just be a leptonic energy field with a momentum E/c. It's frequency must be the Compton frequency. If you do an analysis of the Doppler shift of an energy field that moves at velocity c you will find a beat note that has a wavelength equal to the Debroglie wavelength of matter. I've done the analysis, Hal Fox published it in
Fusion Facts It can be found on page of the link below with a java animation.
Fusion Facts It can be found on page of the link below with a java animation.
If you have bothered to read my links you will find that I have calculated the relativistic properties of matter, the deBroglie wavelength, the Compton frequency, and the energy levels of atoms based on the premice that the matter wave propagates at velocity c and has a momentum E/c. What sticks this fast moving matter wave?
There is no coax cable or boundry conditions. I went back to elementary models of simple harmonic motion for an answer. All classical waves are reflected by a change in characteristic impediance. Should the matter wave be any different? I injected an elastic limit into a model of many answers. For example let us assume that we have an infinite coaxial cable. We increase the voltage to the point were it breaks down. Energy traveling down the coax is refected away at the point of the break down. Likewise energy within the break point is trapped there. U! sing this sort of logic I was able to compute the hight of the nuclear potential wall, the mass of a elecron, the radius of the proton, the mass of the W particle, and the probablilty of quantum transition. see chapers 10, 11, and 12. Techniques for controlling the gravitational (antigravity)and nuclear forces (cold fusion) fell out of the analytics.
There is no coax cable or boundry conditions. I went back to elementary models of simple harmonic motion for an answer. All classical waves are reflected by a change in characteristic impediance. Should the matter wave be any different? I injected an elastic limit into a model of many answers. For example let us assume that we have an infinite coaxial cable. We increase the voltage to the point were it breaks down. Energy traveling down the coax is refected away at the point of the break down. Likewise energy within the break point is trapped there. U! sing this sort of logic I was able to compute the hight of the nuclear potential wall, the mass of a elecron, the radius of the proton, the mass of the W particle, and the probablilty of quantum transition. see chapers 10, 11, and 12. Techniques for controlling the gravitational (antigravity)and nuclear forces (cold fusion) fell out of the analytics.
There has got to be something to this.
Frank Znidarsic
