Ahmmmm,
"Addressing five decades of debate, Stanford engineers determine how
collective electron oscillations, called plasmons, behave in individual
metal particles as small as just a few nanometers in diameter. This
knowledge may open up new avenues in nanotechnology ranging from solar
catalysis to biomedical therapeutics."
http://engineering.stanford.edu/news/quantum-plasmons-demonstrated-atomic-scale-nanoparticles
Chan suggests collective hydride oscillations when a group is trapped in
a Ni lattice subjected to alternating EMF. http//:hydride.has.it
Stare at the jpg, close your eyes and picture convolute oscillation
along fixed axis as each electron wave reverses position while
maintaining their spin direction. Now zoom out to imagine say 1000 doing
the dance in perfect harmony. That's the Ballet of NiH fusion.
Warm Regards,
Reliable
Terry Blanton wrote:
On Wed, Jun 6, 2012 at 8:59 PM, integral.property.serv...@gmail.com
<integral.property.serv...@gmail.com> wrote:
Rossi update,
"The SSM (self sustained mode) is regulated by the control system based on a
complex interaction between parameters. The longest period can be 2 hours,
as an average the self sustained mode runs for the 50% of the total time.
The ionizing electromagnetic emissions have no substantial delta between SSM
and driven mode."
Warm Regards (600C),
Reliable
"Ionizing electromagnetic emissions" but no nuclear reactions. Hmmm.
T
