I like the timeline Ahern presents to connect the dots and would like to know more about the VETC information regarding vibrational properties between 3-15 nm. The information appears to be from experimental result and doesn't suggest a particular theory responsible for the atypical vibration modes or where the energy is coming from.. did I get that right? Is this also the basis for oscilions and is it just a coincidence that this is the most active range for Casimir geometry? Ahern also notes modified half lives of radioactive gas in these regions but doesn't mention Jan Naudt's paper suggesting that these gases are relativistic. Also mentioned in the time line [snip] Romanowski (6) has suggested that copper is the promoter element best suited for dense hydrogen loading.[/snip] which is an entirely new slant that I don't think was previously considered on Vortes that the copper however derived in the reactor is NOT just an addative or ash but rather an active part of the ongoing reaction that aids in condensing the hydrogen! Regards Fran
-----Original Message----- From: pagnu...@htdconnect.com [mailto:pagnu...@htdconnect.com] Sent: Wednesday, November 23, 2011 1:47 AM To: vortex-l@eskimo.com Subject: EXTERNAL: [Vo]:Overview of (Ahern) Vibronic Energy Technologies Approach I don't think this has been posted to Vortex before. I believe it describes Brian Ahern's approach to LENR. Does this imply he believe Rossi's results? Any comments? Thanks, Lou Pagnucco From: http://www.scribd.com/doc/55221791/Clean-Enenergy-From-Nano-Materials /**START** New Clean Energy Opportunity Vibronic Energy Technologies Corp In 1961 newly appointed physicist Otto Reifenschweiller infused 15 nanometer titanium particles with tritium and found a 40% reduction in radioactivity by cycling the material above 140 degreesC (1). His mentor advised him that this result was heretical and advised burying the result in order to have a viable career. Indeed, he buried the result until after his retirement in 1998 as Director of the Laboratory at Philips Eindhoven ND, perhaps the premiere research laboratory in Europe. In 1995 VETC personnel identified a new class of vibrational properties in a narrow size regime between 3 - 15 nanometers (2). All materials processed in this very narrow size regime have unusually large vibrational modes. The modes are so unusual that they catalyze a wide range of new energy pathways. In 2008 Yashiaki Arata, Japan's most decorated scientist, made a major announcement about energy release from nanopowders infused with hydrogen (3). Arata and Reifenschweiller both used metal nanopowders below 15 nanometers and both observed a surprise in output. Reifenschweiler saw a reduction in radiative output. Arata saw energy output without any of the anticipated radiation. Clearly the chaotic movement of the dissolved hydrogen isotopes was profoundly affected. The Electric Power Research Institute (EPRI) (4) agreed to a replication effort of the Arata experiment that began in July 2009. The Arata reports of continuous thermal energy output with no electrical energy input were achieved with full reproducibility. Arata used nanoscale nickel-palladium islands encased in a matrix of zirconium oxide and infused with hydrogen gas. On January 15, 2011 Sergio Focardi and Andreas Rossi (5)demonstrated commercial scale, 12 kilowatt power output from nanomaterials in fused with hydrogen similar to the EPRI study.They used nickel nanopowders with an undisclosed promoter element to enhance the loading of hydrogen to ever higher concentrations. Romanowski (6) has suggested that copper is the promoter element best suited for dense hydrogen loading. These high loading conditions are believed to favor a new form of hyper-dense hydrogen at theinterface between the metal islands and the dielectric ZrO2 matrix (7). The hydrogen atoms undergoing energy localized vibrations can interact with the host nickel lattice nuclei. This is themost direct physical process for chemical conditions to impact nuclear reaction rates. References (1) O.Reifenschweiler, Reduced Radioactivity of Tritium in Small Titanium Particles, Phys LettA. 184 (1994) p. 149-153 (2) Fermi, Pasta and Ulam's famous 1953 simulation identified anharmonic modes that are present in all materials processed between 3-15 nm. See Ulam, Memoirs of a mathematician (3) Arata, Y., Y. Zhang, and X. Wang. Production of Helium and Energy in the "Solid Fusion" (PowerPoint slides) in 15th International Conference on Condensed Matter Nuclear Science. 2009. Rome, Italy: ENEA. This can be found at: http://www.lenr-canr.org/LibFrame1.html (4) Electric Power Research Institute, Menlo Park CA, Contract EP-P32769, monitor, Dan Rastler (5) Focardi, S. and A. Rossi, A new energy source from nuclear fusion. www.journal-of-nuclear- physics.com, 2010 on line. Also See world patent disclosure WO 2009/125444 A1 (6) S. Romanowski et al, Density Functional Calculations of the Hydrogen Absorption on Transition Metals and their Alloys, Langmuir 1999, 15, 6773-6780 (7) S. Yamaura et al, Hydrogen Absorption on Nanoscale Pd Particles in ZrO2 Matrix Prepared from Zr-Pd amorphous Alloy J. Mater, Res., vol. 17, no. 6, June 2002 P. 1329 **STOP**/ Also see the Business Model at: http://cnse.albany.edu/download/Vibronic_Energy_Technologies_Corp.pdf
