Experimental results with plasma. Reception of longitudinal vector potential radiation with a plasma antenna<http://www.deepdyve.com/lp/american-institute-of-physics/reception-of-longitudinal-vector-potential-radiation-with-a-plasma-mXGude67Ol?articleList=%2Fsearch%3Fquery%3Dexperiments%2Bwith%2Bmagnetic%2Bvector%2Bpotential> Zimmerman, Robert K.<http://www.deepdyve.com/search?author=Zimmerman%2C+Robert+K.> Journal of Applied Physics<http://www.deepdyve.com/browse/journals/journal-of-applied-physics> , Volume 114 (4) – Jul 28, 2013
I'm currently in communication with the author regarding a graphene experiment. Also, of interest to LENR: Three-Dimensional Study of the Vector Potential ofMagnetic Structures<http://www.deepdyve.com/lp/american-physical-society-aps/three-dimensional-study-of-the-vector-potential-of-magnetic-structures-AM9UOWrnU7?articleList=%2Fsearch%3Fquery%3Dexperiments%2Bwith%2Bmagnetic%2Bvector%2Bpotential> Phatak, Charudatta<http://www.deepdyve.com/search?author=Phatak%2C+Charudatta> ; Petford-Long, Amanda K<http://www.deepdyve.com/search?author=Petford-Long%2C+Amanda+K> <http://www.deepdyve.com/search?query=experiments+with+magnetic+vector+potential#1079-7114> Physical Review Letters<http://www.deepdyve.com/browse/journals/physical-review-letters> , Volume 104 (25) – Jun 25, 2010 Save for Later<http://www.deepdyve.com/search?query=experiments+with+magnetic+vector+potential#AM9UOWrnU7> The vector potential is central to a number of areas of condensed matter physics, such as superconductivity and magnetism. On Tue, May 6, 2014 at 11:52 PM, James Bowery <jabow...@gmail.com> wrote: > > > New Radio Wave Requires No Transmitter > Power!<http://www.lbagroup.com/blog/new-radio-wave-requires-no-transmitter-power/> > > McMaster Professor Natalia Nikolova and her husband Robert > ZimmermanMcMaster research engineer Professor Natalia Nikolova, and her > husband Robert Zimmerman, have verified the existence of a new type of > radio wave called the Vector Potential Wave. This wave was first predicted > in 1880 by British mathematician James Clerk Maxwell, but had never been > directly detected until this summer here on McMaster campus in the > Communications Research Lab>. > > Dr. Nikolova comments, “One of the most enigmatic predictions of Maxwell > was his concept of the magnetic vector potential. Until recently most > engineers believed it was only a mathematical concept with no physical > reality. Now, more than 125 years later, we have realized a magnetic vector > potential detector which allows measuring the wave at any distance from a > microwave antenna.” > > Nikolova and her husband have been working on this development nearly 2 > years. Zimmerman feels that the new discovery will ultimately lead to radio > and television transmissions which do not require energy. On a more > fundamental level, he added, “Maxwell was correct all along.” > > The novelty of the discovery is that while the transmission requires very > little energy, the reception of the wave requires that an active battery > operated receiver be used. This is distinct from usual AM radio > transmissions, where much energy is radiated by the transmitter, and the > receiver can be a ‘crystal set’ with no battery. > > The detector developed by the research team is a plasma device looking > like a fluorescent tube which displays super-conducting properties for > radio signals. Nikolova is quick to add, “The device is at room temperature > but acts like a superconductor, as predicted by Fritz London in 1930.” > > Nikolova and Zimmerman plan on submitting their results this week to the > research journal *The Physical Review* of the American Physical Society. > > Zimmerman is a former Director of Engineering of LBA > Technology<http://www.lbagroup.com/technology/index.php> > . >
