Experimental Confirmation of the Synthesis of Neutrons and Neutroids from a Hydrogen Gas
Richard Norman1 , Anil A. Bhalekar2 , Simone Beghella Bartoli1 , Brian Buckley1 , Jeremy Dunning-Davies3 , Jan Rak4 , Ruggero M. Santilli1 1Research Department, Thunder Energies Corporation, Tarpon Springs, U.S.A. 2Department of Chemistry, R. T. M. Nagpur University, Amravati Road Campus, Nagpur, India 3Departments of Physics and Mathematics, University of Hull, Hull, England 4Departments of Physics, The Renaissance University, Prague, Czech Republic
In this paper, we outline preceding mathematical, theoretical, and experimental studies on the synthesis of neutrons from a hydrogen gas, and present additional systematic experimental confirmations via the use of three different neutron detectors. We also present experimental evidence of the existence of an intermediate bound state of a proton and an electron with spin zero known as the neutroid. A number of industrial applications currently under development by Thunder Energies Corporation are pointed out. Keywords: Neutrons, Neutroids, Pseudoprotons
EFS Comments: I believe ground state H or D equivalent effect could be explained and occur in Rydberg matter.
