PA Mosier-Boss still ignors basic physics -- DC voltage on conducting plates external to a dielectric container full of conducting electrolyte leads to no internal electric field within electrolyte -- observed changes may be via complex leakage currents: Rich Murray 2011.05.04
The electric field exists within both walls of the cell, as each wall is a capacitor in which one plate is one side and the electrolyte layer in contact with the internal surface of the plastic dilectric wall is the other side -- the only field across the body of the electrolyte is a few volts resulting from minute leakage currents, which result in a DC voltage drop, described by Ohm's Law. Extraordinary Error -- no electric field exists inside a conducting liquid in an insulated box with two external charged metal plates, re work by SPAWAR on cold fusion since 2002 -- also hot spots from H and O microbubbles: Rich Murray 2010.02.22 http://rmforall.blogspot.com/2010_02_01_archive.htm Monday, February 22, 2010 http://groups.yahoo.com/group/astrodeep/message/42 http://www.iscmns.org/CMNS/JCMNS-Vol4.pdf 173-187 February, 2011 [email protected] J. Condensed Matter Nucl. Sci. 4 (2011) 173–187 Research Article Review of Twenty Years of LENR Research Using Pd/D Co-deposition Pamela A. Mosier-Boss ∗, Jack Y. Dea and Frank E. Gordon †, SPAWAR Systems Center Pacific, San Diego, CA 92152, USA Lawrence P.G. Forsley, JWK International, Annandale, VA 22003, USA Melvin H. Miles, Dixie State College, St. George, UT 84770, USA Abstract In the Pd/D co-deposition process, working and counter electrodes are immersed in a solution of palladium chloride and lithium chloride in deuterated water. Palladium is then electrochemically reduced onto the surface of the working electrode in the presence of evolving deuterium gas. Electrodes prepared by Pd/D co-deposition exhibit highly expanded surfaces consisting of small spherical nodules. Because of this high surface area and electroplating in the presence of deuterium gas, the incubation time to achieve high D/Pd loadings necessary to initiate LENR is orders of magnitude less than required for bulk electrodes. Besides heat, the following nuclear emanations have been detected using Pd/D co-deposition: X-ray emission, tritium production, transmutation, and particle emission. Experimental details and results obtained over a twenty year period of research are discussed. © 2011 ISCMNS. All rights reserved. Keywords: Nuclear products, Pd/D co-deposition PACS: 14.20.Dh, 78.67.Rb, 68.35.Ct [email protected]
