TO:	Robert G. Flower, INTERNET:chronos@mail.enter.net

Re:	Practical Spin Offs from B(3) Theory

Dear Dr. Flower,

I am attaching to this message a complete list of B(3) publications which may be of 
interest to "Frontier Perspectives" and NASA. The practical spin offs of B(3) theory 
include radiation induced fermion resonance, and for your information I am 
appending a proposal to develop this at the Alpha Foundation, to Messrs. Rolex in 
Geneva, Switzerland. This may also be of interest to your Company and you are free 
to use it in a proposal of your own. 

I am also attaching two papers on the subject, one accepted in FPL, and another 
probably to be accepted in Physical Review A. These illustrate the work of Dr. S. 
Esposito, Prof. E. Recami, and myself. 

The prorotype experiment is precisely defined in these papers, and would look for the 
resonance set up in one electron by B(3), acting through A x A*. The first set of 
experiments on this took place at Princeton, but it is now realized that radio 
frequencies are required in preference to the visible frequencies used there. 
Nonetheless this technique, which I proposed from Cornell in the early nineties, 
caused enough interest to warrant a notice in Chem and Eng News and Optics and 
Photonics News. 

It was then known as ONMR (optical NMR). Now I prefer to describe it as radiation 
induced fermion resonance (rfr). If made to work it has obvious analytical 
consequences, since half of chemical physics is NMR; and medicine uses MRI. 

The devices proposed by Tom Bearden would of course have much greater 
importance if made to work. 

In the context of propulsion I can envisage that field unification would allow 
interaction between lasers and gravitation. However, I think that NASA could provide a 
valuable bridge between frontier physics and teh NSF awards for new physics, one of 
which was given to Princeton following my proposal of ONMR. 

MWE

cc colleagues.