Axil-- Your comments about zero spin means zero quadrupole spin seems founded relative to Daniel’s comment. I am not sure what you mean by quadrupole spin? Daniel was talking about quadrupole and octapole moments of a nucleus.
I would argue that a nucleus with a nominal ground state with 0 spin could be excited to a higher spin state as Daniel has suggested. What leads you to consider that such ground states cannot be excited to higher and potentially unstable spin states. I would say that in the presence of a magnetic field of high strength and an appropriate resonant frequency, that such ground state nuclei with 0 spin could be excited to higher spin energy states. I think the standard theory which includes quarks with various intrinsic spins could respond to such energy inputs and result in a unstable nuclei. Bob Sent from Windows Mail From: Axil Axil Sent: Thursday, August 7, 2014 6:04 PM To: vortex-l@eskimo.com You should also check out the quadrupole and octopole moments. The nucleus can also bounces in more complicated ways and emit RF. http://www.easyspin.org/documentation/isotopetable.html Zero spin also means zero quadrupole spin. On Wed, Aug 6, 2014 at 6:43 PM, Daniel Rocha <danieldi...@gmail.com> wrote: You should also check out the quadrupole and octopole moments. The nucleus can also bounces in more complicated ways and emit RF. 2014-08-06 17:29 GMT-03:00 Axil Axil <janap...@gmail.com>: The reason why zero spins work and non zero spins don't in LENR is that NMR active (non zero spin) nuclei wastes energy by converting that magnetic power into RF. -- Daniel Rocha - RJ danieldi...@gmail.com