Axil— You indicate that a muon decays into “heat energy” and electrons.
How do you define “heat energy”? Is it the result of an immediate (ultra fast} reaction producing a new coherent system evolved from the original coherent system of which the decaying muon was a constituent? Is it EM radiation which subsequently reacts with the electrons of adjacent materials some time after the muon decay? In the LENR reaction you suggest are there other sub-atomic particles besides the muons and electrons and what are their masses or energies? Bob Cook ________________________________ From: Axil Axil <janap...@gmail.com> Sent: Saturday, March 17, 2018 1:20:32 PM To: vortex-l Subject: Re: [Vo]:LENR fission One of the key features of a sucessful LENR reactor design is the high efficiency conversion of LENR energy into heat. Most of the energy that is produced by the LENR reaction is formatted as subatomic particle creation. It is important in a successful LENR reaction design to capture those particles and convert them to heat energy. One method that might do this conversion is a magnetic bottle using a quadruple or another charged particle confining magnetic field. The muons that come out of the LENR reaction must be confined inside the reactor for up to 10 microseconds to give them enough time to decay. This decay will convert most of the mass of the muon ( 105.6583745(24) MeV/c2 )into heat energy and electrons. [cid:ii_jevtb9tx0_162359acc47de1f3] On Thu, Mar 15, 2018 at 3:42 PM, Axil Axil <janap...@gmail.com<mailto:janap...@gmail.com>> wrote: The COP of the Brillouin reactor is now been verified to be under 1.5... nearly useless. If I remember correctly, MFMP produced over unity heat in some of their experiments but not very much. The same low COP issue arose in the Lugano demo. Low COP is a big problem for LENR. Most of the energy produced by LENR comes in the form of sub atomic particle generation which includes huge numbers of neutrinos. In the LENR reaction, the heat is provided by a minor energy channel involving hawking radiation. The Brillouin reactor is most likely pumping out a ton of sub atomic particles as seen in the experiments of Holmlid. Those particles need to be converted to heat. Therefore, the heat rich LENR reactor should be surrounded by a blanket of molten lead or thorium salt to capture muons that will catalyze muon fission. But this type of fission will produce a ton of neutrons similar to a hot fusion reactor. The dream of a LENR reactor in your basement might well be impossible unless Rossi has found a way to increase the proportion of the reaction energy to be radiated in the form of heat. To verify if this opinion is well founded, a LENR reactor should be surrounded in lead blocks up to a foot thick. We should see a large flux of neutrons produced by the lead.
