LAWRENCE FORSLEY is the Deputy PI and senior lead experimental physicist on the NASA GRC AEC and the Lattice Confinement Fusion Projects. He is a research fellow at the University of Texas, Austin, Nuclear Engineering Teaching Laboratory; Co-PI with the Naval Surface Warfare Centers and previously US Navy SPAWAR-Pacific; and CTO of Glob
LAWRENCE FORSLEY is the Deputy PI and senior lead experimental physicist on the NASA GRC AEC and the Lattice Confinement Fusion Projects. He is a research fellow at the University of Texas, Austin, Nuclear Engineering Teaching Laboratory; Co-PI with the Naval Surface Warfare Centers and previously US Navy SPAWAR-Pacific; and CTO of Global Energy Corporation. During the past 45 years, he has developed control and diagnostic systems for fusion research at the University of Rochester, Laboratory for Laser Energetics (Group Leader, Omega laser fusion), Lawrence Livermore National Laboratory (consultant, TMX-U/MFTF-B mirror fusion) and Max-Planck-Institut für Plasmaphysiks (visiting scientist, ASDEX tokamak) as well as for a modular bremsstrahlung source for the Defense Nuclear Agency. As PI he observed time-resolved, sonoluminescence-induced gamma rays at the Naval Research Laboratory and has specialized in temporally, spatially, and spectrally resolving infrared through gamma ray energy photons, charged particles and neutrons. He was a lecturer at the University of Rochester, and lectured on nano-nuclear reactions at the Université catholique de Louvain, Louvain-la-Neuve, Belgium and the Korea Advanced Institute of Science and Technology (KAIST), Daejeon, South Korea.
Dr. Pamela Mosier-Boss is a retired scientist from the US Navy Laboratory, SPAWAR-Pacific, in San Diego, CA. She is an analytical chemist who has investigated the electrochemistry of thionyl chloride using spectro-electrochemical techniques first demonstrated by Fleischmann and Pons. She has explored the use of phage for bacterial detect
Dr. Pamela Mosier-Boss is a retired scientist from the US Navy Laboratory, SPAWAR-Pacific, in San Diego, CA. She is an analytical chemist who has investigated the electrochemistry of thionyl chloride using spectro-electrochemical techniques first demonstrated by Fleischmann and Pons. She has explored the use of phage for bacterial detection and surface enhanced Raman spectroscopy (SERS) for the detection of chemical contaminants such as perchlorate, hexavalent chromium, chlorinated solvents, and bacteria. SERS is another phenomenon that was first discovered by Fleischmann. Dr. Mosier-Boss has also been involved in the development of direct push sensors to map out subsurface plumes of heavy metals and petroleum.
In addition to her environmental sensor work at the Navy laboratory, she conducted research in the area of low energy nuclear reactions (LENR) for the past 27 years. She is currently conducting LENR research with GEC. In this research, she and her colleagues have employed the co-deposition process that was pioneered by Dr. Stanislaw Szpak. In the co-deposition process, palladium is electroplated onto a metal substrate in the presence of evolving deuterium gas. The resultant palladium nanoparticles load instantly with deuterium achieving the high D/Pd loadings and high deuterium flux inside the lattice to initiate LENR. Using the co-deposition process, Mosier-Boss and her colleagues have reported on the evidence of excess heat, tritium, X-ray/gamma-ray emissions, transmutation, charged particles, and neutrons. These results have been published in over 35 peer-reviewed journal articles and resulted in two patents. All together, Dr Boss has over 50 publications and patents attributed to her.
Copyright © 2022 US Asia Institute - All Rights Reserved.
Powered by GoDaddy
We use cookies to analyze website traffic and optimize your website experience. By accepting our use of cookies, your data will be aggregated with all other user data.