RE: [Vo]:Missing Neutrons? In a neutron-rich tin nucleus, electromagnetism can win over the strong force
This report is another nail in Standard Model’s coffin.Folks should take a look at the theory of P Hatt to understand better what happens in the tin situation. Bill Stubb’s item in Infinite Energy last year evaluating high energy electron scattering experiments is also instructive in IMHO. Bob Cook From: Alan Fletcher<mailto:a...@well.com> Sent: Sunday, May 21, 2017 9:05 AM To: vortex-l@eskimo.com<mailto:vortex-l@eskimo.com> Subject: [Vo]:Missing Neutrons? In a neutron-rich tin nucleus, electromagnetism can win over the strong force Just wondering if this might be relevent to one of the Cold Fusion "miracles" https://phys.org/news/2017-05-neutron-rich-tin-nucleus-electromagnetism-strong.html In a recent experiment ... scientists .. made a very surprising observation: High-energy gamma rays—which are mediated by the electromagnetic force—are emitted in the decay of a certain excited nucleus—tin 133, in competition with neutron emission, the decay mode mediated by the strong nuclear force. This is despite the fact that the neutron emission was expected to be orders of magnitude faster since the force is much stronger. ... The RIBF results suggest that structure effects, which are commonly neglected in the evaluation of neutron-emission probabilities in calculations of global beta-decay properties for astrophysical simulations, are much more important than generally assumed ... -- Alan Fletcher <a...@well.com>
Re: [Vo]:Missing Neutrons? In a neutron-rich tin nucleus, electromagnetism can win over the strong force
Maybe we should change the name of LENR to remove the 'Nuclear' connotation and just call it Structure Effect HyperChemical Reactions, SEHCR.Just because there's a high energy gamma ray DURING the process doesn't mean that we have to deal with gamma rays as a RESULT of it.So by it not being a 'nuclear' process, it will be monitored by standard industry watchdogs rather than the NRC. On Sun, May 21, 2017 at 9:05 AM, Alan Fletcherwrote: > Just wondering if this might be relevent to one of the Cold Fusion > "miracles" > > https://phys.org/news/2017-05-neutron-rich-tin-nucleus- > electromagnetism-strong.html > > In a recent experiment ... scientists .. made a very surprising > observation: High-energy gamma rays—which are mediated by the > electromagnetic force—are emitted in the decay of a certain excited > nucleus—tin 133, in competition with neutron emission, the decay mode > mediated by the strong nuclear force. This is despite the fact that the > neutron emission was expected to be orders of magnitude faster since the > force is much stronger. > > ... > > The RIBF results suggest that structure effects, which are commonly > neglected in the evaluation of neutron-emission probabilities in > calculations of global beta-decay properties for astrophysical simulations, > are much more important than generally assumed > ... > -- > Alan Fletcher > >
[Vo]:Missing Neutrons? In a neutron-rich tin nucleus, electromagnetism can win over the strong force
Just wondering if this might be relevent to one of the Cold Fusion "miracles" https://phys.org/news/2017-05-neutron-rich-tin-nucleus-electromagnetism-strong.html In a recent experiment ... scientists .. made a very surprising observation: High-energy gamma rays—which are mediated by the electromagnetic force—are emitted in the decay of a certain excited nucleus—tin 133, in competition with neutron emission, the decay mode mediated by the strong nuclear force. This is despite the fact that the neutron emission was expected to be orders of magnitude faster since the force is much stronger. ... The RIBF results suggest that structure effects, which are commonly neglected in the evaluation of neutron-emission probabilities in calculations of global beta-decay properties for astrophysical simulations, are much more important than generally assumed ... -- Alan Fletcher