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                     JET Energy PHUSOR®-type Metamaterial Technology            

                                                    Anodic side of Cathode => 

PHUSOR®-type Electrode Metamaterial Heating Technology - This figure demonstrates an important finding of this system - asymmetric electrolysis which is seen on only one side of the cathode (which is facing the anode).  In this high voltage system (~1500 volts), videos (including those shown at ICCF-10 by Dr. Mitchell Swartz, of which the above figure is a single frame grab) have demonstrated that cathodic electrolysis bubbling occurs, if the conditions are appropriate, almost solely on the anode-side (left hand portion of the spiral wound cathode in the photo) of this PHUSOR®-type heating electrode system.   

As shown above, the JET Energy PHUSOR®-type electrode system is different from others in the field.  The figure also heralds the forced movement of the loaded deuterons through the loaded metal.  This creates a deuteron current through the palladium electrode, and an improved likelihood of success in LANR.    

EXCESS HEAT IN Palladium and Nickel

PALLADIUM SYSTEMS -  Input electrical power and observed output heat power (and energies) as a function of time for the Phusor system and the electrical control 

Dr. Mitchell Swartz (JET Energy, Inc.):  "With control of optimal operating point manifolds and use of high impedance systems, excess heat is more reproducibly observed.   It has been confirmed by time integration, noise measurement, and with the use of several types of controls. The figure shows the output of a moderate performance cold fusion system. ....  The figure shows that in this run, there was an excess heat developed of more than 300,000 joules compared to the control."
 

  NICKEL SYSTEMS

•         

  The figure above shows the input and  output power (and energy) of a JET Energy, Inc. Nickel Phusor.   ...The graph results the power and energy of two JET Energy Technology generators, compared with three ohmic (Joule, or thermal) control pulses. The two solid lower lines are energy curves (input and output). They should be read off the right y-axis.

PHUSOR®-type COMPONENT LANR REFERENCES       

Swartz, M. R, BUOYANT HEAT TRANSPORT IN FLOW CALORIMETRY, Proc. ICCF-22, J. Condensed Matter Nucl. Sci., (2019); pending                                      

Swartz, M. R, Deuterons in LANR Systems Emit a 327.37 MHz Hyperfine Maser Line, Proc. ICCF-22, J. Condensed Matter Nucl. Sci. (2019); pending

Swartz M., Superhyperfine Line Structure of ZrO₂PdD RF Emission Heralds a Deuteron in a FCC Vacancy, Proc. ICCF-22, J. Condensed Matter Nucl. Sci. (2019); pending

Swartz M., Pulsatile 327.37 MHz Superhyperfine Line Heralds Lattice Mass-Energy Movements, , Proc. ICCF-22,  J. Condensed Matter Nucl. Sci. (2019), pending     

Mitchell R. Swartz, Brian Ahern, Charles Haldemann and Alan Weinberg, Excess Heat is Linked to Deuterium Loss in an Aqueous Nickel LANR System, Proc. ICCF-21, Fort Collins, Co.6/3/18 (2018), J. Condensed Matter Nucl. Sci, Vol 29,  169 (2019)

 Swartz, M. R, Aqueous and Nanostructured CF/LANR Systems Each have Two Electrically Driven Modes, Proc. ICCF-21, Fort Collins, Co.6/3/18 (2018), J. Condensed Matter Nucl. Sci, Vol 29,  177 (2019)

Swartz, M. R, Increase of an Anti-Stokes Peak at the Cathode of an Electrically-Driven, Active Aqueous Nickel/H2O/Pt System, J. Condensed Matter Nucl. Sci., Vol 279, 22 (2018)

Swartz, M. R, Quasiparticles, Collective Excitations and Higher-Order Collective Quasi-Excitations in Lattice Assisted Nuclear Reactions, J. Condensed Matter Nucl. Sci. with Excess Heat Mode, J. Condensed Matter Nucl. Sci. 24, 130-145 (2017)

Swartz, M. R, Water Is Best, Infinite Energy, 134, pp 16-29, July/August (2017)

Swartz M. R., Schuster T., Verner G., Gyllinsky, J., Tolleson J., Paraterraforming Mars - I. Heat, Electricity and Oxygen, 131, Jan/Feb (2017)

 Swartz M. R.,  Paraterraforming Mars - II. Fueling Colonies on Mars (and Ceres) by LANR and Subsurface Ordinary Water-Ice, 131, (2017)

 Verner, G., M. Swartz, P. Hagelstein, Development of a Science and Engineering CF Course, J. Condensed Matter Nucl. Sci. 22, 47-52 (2017)

 Swartz, M. Energy Sources for Propulsion to, and for Distributed Use on, Mars, J. Space Exploration, 4, 2 (2015)

Swartz M. R., Impact of an Applied Magnetic Field on a High Impedance Dual Anode LANR Device, J. Condensed Matter Nucl. Sci. 4, (2011), p 93; 239th American Chemical Society National Meeting and Exposition in San Francisco (2011).www.iscmns.org/CMNS/JCMNS-Vol4.pdf

Swartz M., Verner G., et al., Non-Thermal Near-IR Emission from High Impedance and Codeposition LANR Devices, Proc. ICCF14 1, (2008), p 343; Ed D.J. Nagel and M.E.Melich, ISBN: 978-0-578-06694-3, 343, (2010);  www.iscmns.org/iccf14/ProcICCF14a.pdf

Swartz M., Verner G., The Phusor®-type LANR Cathode is a Metamaterial Creating Deuteron Flux for Excess Power Gain, Proc. ICCF14 2, (2008), p 458;  Ed D.J. Nagel and M.E.Melich, ISBN: 978-0-578-06694-3, 458, (2010); www.iscmns.org/iccf14/ProcICCF14b.pdf

Swartz M., Excess Power Gain using High Impedance and Codepositional LANR DevicesMonitored by Calorimetry, Heat Flow, and Paired Stirling Engines, Proc. ICCF14 1, (2008), p 123;  Ed D.J. Nagel and M.E.Melich, ISBN: 978-0-578-06694-3, 123, (2010);  www.iscmns.org/iccf14/ProcICCF14a.pdf

Swartz, M., Bass, R.W., "Empirical System Identification (ESID) and Optimal Control of Lattice-AssistedNuclear Reactors," Proceedings of the 14th International Conference on Condensed Matter Nuclear Science and the 14th International Conference on Cold Fusion (ICCF-14), Ed D.J. Nagel and M.E.Melich, ISBN: 978-0-578-06694-3, 497, (2010).

Swartz, M., "Electrical Breakeven from LANR Phusor Device Systems: Relative Limitations of Thermal Loss in Feedback Loop", Proceedings of the 14th International Conference onCondensed Matter Nuclear Science and the 14th International Conference on Cold Fusion (ICCF-14), Ed D.J. Nagel and M.E.Melich, ISBN: 978-0-578-06694-3, 689, (2010).

Swartz, M., "Metamaterial Shaped LANR-Cathodes Produce Deuteron Flux", Infinite Energy, vol 90,  April (2010).

Swartz, M., "Survey of the Observed Excess Energy and Emissions In Lattice Assisted Nuclear Reactions", Journal of Scientific Exploration, 23, 4, 419-436 (2009).

Swartz, M.R., "Excess Heat and Electrical Characteristics of Type "B" Anode-Plate High Impedance Phusor-type LANR Devices", American Chemical Society, Salt Lake City, UT, Journal of Scientific Exploration, 23, 4, 491-495 (2009).

Swartz, M., G. Verner, "Excess Heat from Low Electrical Conductivity Heavy Water Spiral-Wound Pd/D2O/Pt and Pd/D2O-PdCl2/Pt Devices", Condensed Matter Nuclear Science, Proceedings of ICCF-10, eds. Peter L. Hagelstein, Scott, R. Chubb, World Scientific Publishing, NJ, ISBN 981-256-564-6, 29-44; 45-54 (2006).

Swartz, M., "Can a Pd/D2O/Pt Device be Made Portable to Demonstrate the Optimal Operating Point?", Condensed Matter Nuclear Science, Proceedings of ICCF-10, eds. Peter L. Hagelstein, Scott, R. Chubb, World Scientific Publishing, NJ, ISBN 981-256-564-6, 29-44; 45-54 (2006).

Swartz, M., "Photoinduced Excess Heat from Laser-Irradiated Electrically-Polarized Palladium Cathodes in D2O", Condensed Matter Nuclear Science, Proc. ICCF-10, eds. Peter L. Hagelstein, Scott Chubb, NJ, ISBN 981-256-564-6, 213-226 (2006).

Swartz, M., G. Verner, "Dual Ohmic Controls Improve Understanding of 'Heat after Death'", Transactions American Nuclear Society, vol. 93, ISSN:0003-018X, 891-892 (2005).

Swartz. M., "The Impact of Heavy Water (D2O) on Nickel-Light Water Cold Fusion Systems", Proceedings of the 9th International Conference on Cold Fusion (Condensed Matter Nuclear Science), Beijing, China, Xing Z. Li, pages 335-342. May (2002).

Swartz, M, "Improved Electrolytic Reactor PerformanceUsing p-Notch System Operation and Gold Anodes, Transactions of the American Nuclear Association, Nashville, Tenn. Meeting, (ISSN:0003-018X publisher LaGrange, Ill) 78, 84-85 (1998).

Swartz. M., "Consistency of the Biphasic Nature of Excess Enthalpy in Solid State Anomalous Phenomena with the Quasi-1-Dimensional Model of Isotope Loading into a Material", Fusion Technology, 31, 63-74 (1997).

PHUSOR® and NANOR® are registered trademarks.

NANOR® -type LANR technology, and PHUSOR®-type LANRtechnology, and other discussed IP herein is protected by U.S. Patents D596724, D413659 and other Patents pending.