Robin, I can quickly suggest a couple of examples where e-m field momentum is concentrated - in a very counter-intuitive way.
First, look at the references in the recent Vortex thread - [Vo]:Momentum "superkicks" from monochromatic e-m fields http://www.mail-archive.com/[email protected]/msg87201.html Second, look at section 21-3 ("Two kinds of momentum") of Vol.3 of Feynman's Physics Lectures at URL: http://www.peaceone.net/basic/Feynman/V3%20Ch21.pdf Also, you might want to google "superoscillations". One good reference is - "Yield--Optimized Superoscillations" http://arxiv.org/abs/1209.6572 I hope to revisit this topic next week if time permits. Regards, Lou Pagnucco Robin van Spaandonk wrote: > Hi, > > Please suggest such an effect. > > [snip] >>While the information you suggest acquiring is valuable, I think the >>important issue is not bulk energy absorption, but how hot "hot spots" >>can get - that is, how energy can be super-focused to LENR levels. >>Collective effects could occur when oppositely charged particles collide >>in strong localized currents or plasmon e-m fields, and result in >>surprisingly high energy concentrations. >> >> -- Lou Pagnucco >> > Regards, > > Robin van Spaandonk > > http://rvanspaa.freehostia.com/project.html > > >
