Paul, you need to be careful how you describe "correlation". A nuclear
reaction must produce radiation in some form. This is the only way
energy of the required magnitude can be released from a nuclear
process. The only issue is how much of this radiation can be detected
outside of the apparatus. Obviously, not much of this kind of energy
escapes when CF occurs. Nevertheless, the radiation is useful to
demonstrate that a novel nuclear reaction is occurring. The amount of
radiation can only give a relative measure of the true rate, which is
related to the heat being measured.
Ed
On Feb 22, 2013, at 10:31 AM, Paul Breed wrote:
Thanks for the references... there is so much info to absorb in this
space..
As I suspected Piantelli is seeing heat, OR he is seeing radiation,
they do not seem to be corelated. IE gammas are not a good stand in
for heat production...
Paul
On Fri, Feb 22, 2013 at 8:43 AM, Peter Gluck <peter.gl...@gmail.com>
wrote:
Dear Paul,
Do you know:
http://egooutpeters.blogspot.ro/2011/08/piantelli-taxonomy_15.html ?
Piantelli is the discoverer and developer, and long runner
(solitary) of the NiH system. The tests
were made at the Sienna Univ. the anlytical part at the Bologna u,
(Sergio Focardi et al)
Peter
On Fri, Feb 22, 2013 at 6:01 PM, Paul Breed <p...@rasdoc.com> wrote:
As I previously commented I'm trying to set up a system for quickly
testing
various materials, simulations etc.... in a dry gas cell.
Dr Storms seems pretty confident that whatever LENR is happening in
Ni-H systems
emits detectable radiation ... IE something easily detected with a
sensitive Geiger Muller Tube..
How strong is the evidence for excess enthalphy and radiation
emissions being correlated in Ni-H systems?
--
Dr. Peter Gluck
Cluj, Romania
http://egooutpeters.blogspot.com
