[image: Inline image 1] The Manelas Device functional diagram
On Sun, Feb 12, 2017 at 7:58 PM, Axil Axil <janap...@gmail.com> wrote: > It might be that the pulsed current of the 137 kilohertz square wave input > current produces a magnetic dipole with a large instantaneous power factor > because the current is produced by a square wave like the Brillouin method. > The 24 volt constant current also produces heat and the strontium ferrite > magnet is heat resistant. The maximum operating temperature of the magnet > is 250C and the Curie temperature is 450C, With that high temperature > operating capacity, coherent magnetically based Surface plasmon polaritons > may form under the influence of the magnetic dipole motion that localize > around the magnetic field lines as heat photons become entangled with > electrons dipoles. > > If these magnetic polaritons become coherent, these polaritons may produce > enough magnetic power to destabilize the nuclei of the gas above the > surface of the magnet inside the Mandela's Device black box. > > On Sun, Feb 12, 2017 at 6:28 PM, Brian Ahern <ahern_br...@msn.com> wrote: > >> The Manelas billet is strontium ferrite and is very high electrical >> resistivity. This eliminates eddy currents as a loss mechanism >> >> >> ------------------------------ >> *From:* Axil Axil <janap...@gmail.com> >> *Sent:* Sunday, February 12, 2017 6:18 PM >> *To:* vortex-l >> *Subject:* [Vo]:Regarding what BOB COOK THINKS ABOUT THE NAE >> >> 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 >> QCD in strong magnetic fields - uni-regensburg.de >> <http://homepages.uni-regensburg.de/~eng14891/qcdB_workshop/program.shtml> >> homepages.uni-regensburg.de >> Monday 12 November; 09:00 - 09:40: Berndt Müller: When QCD meets QED: >> 09:40 - 10:20: Vladimir Skokov: Magnetic field in HIC and anisotropy of >> photon production >> >> >> >> and also by another name "Workshop on Magnetic Fields in Hadron Physics" >> >> http://www.ictp-saifr.org/wp-content/uploads/2015/05/all-abs >> tracts_logo.pdf >> Workshop on Magnetic Fields in Hadron Physics ICTP/SAIFR ... >> <http://www.ictp-saifr.org/wp-content/uploads/2015/05/all-abstracts_logo.pdf> >> www.ictp-saifr.org >> Workshop on Magnetic Fields in Hadron Physics . ICTP/SAIFR - São Paulo, >> BR . May 9 - 13, 2016 . List of Abstracts . MONDAY – May 9 . Uses and >> misuses of the NJL ... >> >> >> >> 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. >> > >
