Regarding what BOB COOK THINKS ABOUT THE NAE
"Note my recent comment regarding the Manelas Device reflecting your notice about the discovery of time crystals. There may be a connection with the magnetic materials used in the device. Separately, I would note that the design of NAE’s may require a structure which allows high magnetic fields (10^12 –10^16 Tesla.) Structures that are 1 or 2 dimensional may be the key, with the 1-D NAE supporting LENR+, because it causes the reaction in a confined space and maintains the 1-D characteristic for repeated reactions upon arrival of reactants—H or D or Li or whatever." There is a branch of physics called "QCD in strong magnetic fields" that has conducted workshops on what a strong magnetic fields can do to a nucleus. http://homepages.uni-regensburg.de/~eng14891/qcdB_workshop/program.shtml and also by another name "Workshop on Magnetic Fields in Hadron Physics" http://www.ictp-saifr.org/wp-content/uploads/2015/05/all-abstracts_logo.pdf One posit of this field is that in a magnetic field of (10^12 –10^16 Tesla.), Localization of (anti-)quark orbits by magnetic field enhances chiral symmetry breaking effect of attractive interactions. See http://homepages.uni-regensburg.de/~eng14891/qcdB_workshop/pdf/QCDB_Mueller.pdf QCD in strong magnetic fields Charged vector mesons can condense in a superstrong magnetic field. This superstrong magnetic field can be considered a magnetic catalyst that produces charge parity violation thereby producing strange quarks and their mesons. The question then becomes, can Surface plasmon polaritons(SPP) amplify light/electron entanglement to the point where magnetism reaches very high strength, enough to produce a magnetic catalyst of mesons. When it comes to bose condinsation through ultra dense hydrogen as a way to amplify SPPs through superradiance, what matters is the number of SPPs that aggregate in that condinsate. An analogy of the additive aggregation principle is how 8,000 AA lithium batteries can produce enough power to propel a Tesla for over 200 miles. Quantum mechanics can do unexpected things. When protons and neutrons fall apart into mesons, the final result is a boatload of electrons that are fabricated from decaying nuclear matter. This is where the current observed in the Manelas Device might come from. A large anisotropic magnet might be strong enough to produce electrical power strong enough and properly focused to tear apart nuclear matter.
