TARPON SPRINGS, Fla., Dec. 12, 2017 (GLOBE NEWSWIRE) — Dr. Ruggero M. Santilli, Chief Scientist of Thunder Energies Corporation, a publicly traded company with stock symbol (OTC:TNRG), announces the confirmation of the directionality of the neutron source and the delivery of the first production unit to a European customer in accordance with our announced release (http://www.globenewswire.com/news-release/2017/06/05/1008093/0/en/Thunder-Energies-Receives-Down-Payment-on-Equipment-Producing-a-Directional-Neutron-Flux-and-Predicts-Profitability-for-its-Construction.html).
Dr. Santilli states: “As part of the delivery process, our European customer sent to our facilities in Florida a scientist with a neutron detector for produced Advacam (www.advacam.com) specifically produced to detect low energy (thermal) neutrons in both their numbers per seconds and their energy for the conduction of comprehensive verification of the various functions and components of our Directional Neuron Source (patent pending) prior to its delivery. These tests confirmed in full the directionality of our neutron source in the sense of producing on demand a flux in the desired direction of neutrons synthesized from the hydrogen gas. The same tests confirmed that the produced neutrons do indeed have low energy of the order of a few KeV. Finally, the tests confirmed that our directional neutron source can produce on demand the desired number of neutrons, from a few neutrons per seconds to tens of thousands of neutrons per seconds, with the desired energy from a few KeV to a few hundred KeV (http://thunder-energies.com/docs/dns1-info.pdf).
An image accompanying this announcement is available at http://www.globenewswire.com/NewsRoom/AttachmentNg/fb5bbcf5-e878-45a2-a04a-1b20a2c65d8c
The verification of these features is important for the various applications of our Directional Neutron Source. As an example, the scanning of suitcases in an airport for possible concealed nuclear weapons requires a small flux of low energy neutrinos and cannot be done for safety with high energy neutrinos. A similar situation occurs for scanning the walls of mines for the presence and concentration of precious elements, while the scanning of deep welds in military naval construction requires a high flux of high energy neutrinos (http://www.thunder-energies.com/index.php/ct-menu-item-18/11-articles/19-article-10).
Forward Looking Statements
The information provided in this presentation is covered by patent applications and other intellectual rights owed by Thunder Energies Corporation that hereby authorize their use without consultation provided authorization for any desired scientific research. Certain statements in this news release may contain forward-looking information within the meaning of Rule 175 under the Securities Act of 1933 and Rule 3b-6 under the Securities Exchange Act of 1934, and are subject to the safe harbor created by those rules. All statements, other than statements of fact, included in this release, including, without limitation, statements regarding potential future plans and objectives of the company, are forward-looking statements that involve risks and uncertainties. There can be no assurance that such statements will prove to be accurate and actual results and future events could differ materially from those anticipated in such statements. Technical complications, which may arise, could prevent the prompt implementation of any strategically significant plan(s) outlined above. The Company undertakes no duty to revise or update any forward-looking statements to reflect events or circumstances after the date of this release.
Dr. Ruggero M. Santilli
Thunder Energies Corporation