What is Thunder Energies Corporation?

The company markets its technologies through three divisions: Optical Instruments, Nuclear Instruments, and Fuel Combustion.

Thunder Energies logo

@ThunderEnergie Corporation, a development stage company, focuses on the manufacture, sale, and service of various technologies in the United States. The company markets its technologies through three divisions: Optical Instruments, Nuclear Instruments, and Fuel Combustion. It produces and sells Galileo and Santilli telescopes with 70 mm, 100 mm, and 150 mm concave lenses, as well as focuses on providing hadronic reactors for the synthesis of the neutron from the hydrogen gas and HyperFurnaces for the combustion of fossil fuels. The company also engages in producing, selling, and servicing Directional neutron Source equipment, which is used to scan suitcases in airports for the detection of concealed nuclear materials, such as Uranium 235; and suited to identify the existence and the concentration of precious metals in mining operations. The company was formerly known as Thunder Fusion Corporation and changed its name to Thunder Energies Corporation in May 2014. The company was founded in 2011 and is based in Tarpon Springs, Florida. Thunder Energies Corporation is a subsidiary of Hadronic Technologies Press, Inc.

PubRelCo Interviews Sir Ruggero M. Santilli on the New Clean Nuclear Energies Permitted by Negatively Charged Pseudoprotons and Pseudonuclei

The importance of Dr. Santilli’s discovery is that being negatively charged, pseudoprotons and pseudonuclei are attracted by nuclei, thus resolving the historical Coulomb barrier.

Friday, January 4, 2019 4:51 AMNEW YORK, NY / ACCESSWIRE / January 4, 2019 / PubRelCo has been informed about the publication of the following important scientific paper providing experimental evidence by two U.S. spectroscopic laboratories on the existence of the negatively charged protons called pseudoprotons and negatively charged nuclei called pseudonuclei which are being developed by Sir Ruggero M. Santilli (see his Biographical Notes http://www.i-b-r.org/Dr-R-M-Santilli-Bio-1-10-18.pdf) as Chief Scientist of the U. S. public company Thunder Energies Corporation (http://thunder-energies.com).
R. M. Santilli, “Apparent Experimental Confirmation of Pseudoprotons and their Application to New Clean Nuclear Energies”, “International Journal of Applied Physics and Mathematics Volume 9, Number 2, 2019” http://www.santilli-foundation.org/docs/pseudoproton-verification-2018.pdf.
Mankind has been unable to achieve the controlled fusion at both low and high energies despite the investment of billions of dollars of public funds because nuclei are positively charged, thus experiencing a Coulomb repulsion that acquires astronomical values at the nuclear distance needed for the fusion (see Figure 1).

The importance of Dr. Santilli’s discovery is that being negatively charged, pseudoprotons and pseudonuclei are attracted by nuclei, thus resolving the historical Coulomb barrier. In fact, pseudoproton irradiation caused the nuclear transmutation of selected light, stable and natural elements into light, stable and natural elements with a smaller atomic number, while pseudonuclei irradiation of selected elements causes basically novel nuclear fusion.

In all cases, there is the emission of thermal energy without a release of neutrons or other harmful radiation or the release of radioactive waste. Subject to the necessary funding and time, the new energies are expected to be controllable via the control of the irradiation beams and other means within current technological capability (for details, see Dr. Santilli’s interview http://pubrelco.com/index.php/pseudoprotons-and-pseudonuclei ).

The experimental confirmation of the existence of the negatively charged pseudoprotons entirely composed of matter has confirmed doubts raised by various scientists on the claim by CERN, FERMILAB and other particle laboratories that they can produce antiprotons. Dr. Santilli suggests that particle physics laboratories should conduct various tests establishing the antimatter character of the claimed antiprotons. Interested scientists are suggested to participate in the ongoing debate in the field CERN Antiprotons or Santilli Pseudoprotons accessible in the website http://www.galileoprincipia.org.

Pubrelco, Inc.

Hannah Kegerreis


SOURCE: Pubrelco, Inc.

Discovery of isonumbers


Beginning with studies in the 1980s at the Department of Mathematics of Harvard University, the Italian-American scientist R. M. Santilli discovered new realizations of the abstract axioms of numeric fields with characteristic zero, based on an axiom-preserving generalization of conventional associative product and consequential positive-definite generalization of the multiplicative unit, today known as Santilli isonumbers [1], and the resulting novel numeric fields are known as Santilli isofields. By remembering that 20th century mathematics was formulated on numeric fields, their generalization into isofields stimulated a corresponding generalization of all of 20th century mathematics and its application to mechanics, today known as Santilli isomatheatics and isomechanics, respectively, which is used for the representation of extended-deformable particles moving within physical media under Hamiltonian as well as contact non-Hamiltoian interactions. Additionally, Santilli discovered a second realization of the abstract axioms of a numeric field, this time with arbitrary (non-singular) negative definite generalized unit and related multiplication, today known as Santilli isodual isonumber [1] that have stimulated a second covering of 20th century mathematics and mechanics known as Santilli isodual isomathematics and isodual isomechanics. The latter methods are used for the classical as well as operator form of antimatter in full democracy with the study of matter. In this paper, we present a comprehensive study of Santilli’s epoch making discoveries of isonumbers and their isoduals along with their application to isomechanics and its isodual for matter and antimatter, respectively.

Arun S. Muktibodh. Studies on Santilli’s Isonumber Theory. American Journal of Modern Physics. Special Issue: Issue II: Foundations of Hadronic Mechanics. Vol. 5, No. 2-1, 2016, pp. 17-36. doi: 10.11648/j.ajmp.2016050201.12 Received: August 10, 2015; Accepted: August 11, 2015; Published: May 18, 2016

IsoMathematics at the Foundation of the new technologies being developed by Thunder Energies Corporation

Some very interesting cutting edge new Technologies are being developed by Thunder Energy Corporation and according to Dr. Santilli, “Our new mathematics has permitted the construction of a non-unitary overseeing of quantum mechanics, known as hadronic mechanics and of quantum chemistry known as hadronic chemistry, that recover 20th century theories for all mutual distances of particles bigger than their wavepackets or charge distributions” (http://www.santilli-foundation.org/docs/hadronic-math-mec-chem.pdf).

Dr. Santilli added, “I was grateful to Dr. Florian Kongoli, organizer of Sips 2015, for the opportunity to present our advances to so many distinguished colleagues and to create scientific and industrial awareness of and interest in the new technologies being developed by Thunder Energies Corporation.”

So, what are these new technologies! Welcome the Santilli Thermal Neutron Source , the Santilli HyperFurnace and the Santilli telescope! IsoMathematics is at the center and foundation of these new technologies developed by Thunder Energies Corporation. Each will revolutionize their respective fields of application.

Detection of Antimatter Galaxies via Santilli Telescope with Concave Lenses Confirmed at the Sorbonne University, France

“Following decades of mathematical, theoretical, and experimental research on antimatter, recent results have announced the apparent detection of antimatter galaxies, antimatter asteroids and antimatter cosmic rays via the use of a new telescope with concave lenses known as the Santilli telescope. This article presents results providing additional confirmations that Santilli has indeed achieved the first known detection of antimatter in the large scale structure of the universe, and identifies the main implications.” – American Journal of Modern Physics

Prof. Svetlin Georgiev of the Sorbonne University, Paris, France, reports the confirmatory publication in Cambridge, U.K., of the original paper by Prof.. Ruggero Maria Santilli, President of the Institute for Basic Research, Palm Harbor, Florida, U.S.A., on the first detection in scientific history of antimatter galaxies via a new telescope with concave lenses (http://www.santilli-foundation.org/docs/Antimatter-telescope-2013-final.pdf).

Newtonian mechanics, Galileo relativity and Einstein special and general relativities have no means for the “classical” representation of “neutral” antimatter. As a result of this feature, it has been popularly believed in academia for about one century that antimatter does not exist at the large scale in the universe, and that antimatter only exists when produced in our laboratories at the particle level. When he was at the Department of Mathematics of Harvard University in the early 1980s under DOER support, Prof. Santilli discovered a new mathematics, today known as “Santilli isodual mathematics,” permitting a conjugate formulation of 20th century theories that represents classical, neutral (as well as charged) antimatter. Prof. Santilli then constructed a telescope with concave lenses as predicted by his isodual mathematics and detected, for the first time in scientific history, antimatter galaxies, antimatter cosmic rays and antimatter asteroids. The discovery was then confirmed by a team of independent scientists using the same telescope and other equipment of the original discovery (http://www.santilli-foundation.org/Detect-Ant-Galaxies.html).

“The mathematical relevance of Prof. Santilli’s detection of antimatter galaxies is that it confirms the validity of the new isodual mathematics based on a new form of the differential calculus discovered by Newton as a condition to formulate his celebrated equation, and known as Santilli isodual differential calculus,” stated Prof. Georgiev. “By remembering the importance of the ordinary differential calculus for all quantitative sciences, we can safely predict important new advances permitted by Santilli isodual differential calculus in all quantitative sciences, with particular reference to basic advances biology, as outlined in my forthcoming monograph” (http://www.santilli-foundation.org/docs/isohandbook.pdf).

“The physical relevance of Prof. Santilli’s detection of antimatter galaxies is evident not only for the ensuing new conception of the universe, but also for the protection of our planet against antimatter asteroids.” stated Prof. Georgiev. “Since antimatter asteroids are not predicted by Einstein theories, they are ignored by the academic community. However, our Earth has been devastated in the past by antimatter asteroids, such as the famous 1908 Tunguska explosion in Siberia, with resulting paralysis for days of all civilian, industrial and military communications because the annihilation of antimatter in our atmosphere produce extremely intense electromagnetic radiations that excite all atoms and molecules in our atmosphere, by therefore prohibiting any communication. Therefore, I join the current call for systematic research for the advance detection of antimatter asteroids prior to their hitting our planet, that requires the prior development of the new Santilli isodal optics for antimatter light” (http://www.santilli-foundation.org/docs/Antimatter-2013.pdf).

The World Of Hadronic Physics!

In continuation of the new mathematics discussed in the preceding special issue entitled Foundations of Hadronic Mathematics, we recall that the Italian-American scientist R. M. Santilli proposed in 1978 the construction of a covering of quantum mechanics called hadronic mechanics, which is solely valid at mutual distances of one Fermi while recovering quantum mechanics identically and uniquely at larger mutual distances. By using the novel iso-, geno- and hyper-mathematics and their isoduals the Hadronic mechanics is divided into isomechanics, genomechanics and hypermechanics for the representation of single-valued, reversible, single-valued irreversible and multi-valued irreversible matter-system or reactions, respectively, with corresponding isodual for antimatter composite systems or reactions.

Thanks to the collaboration of numerous physicists, hadronic mechanics has now received applications and experimental verifications in classical mechanics, particle physics, nuclear physics, astrophysics, cosmology and other fields. The special issue of the AJMP entitled the Foundations of Hadronic Mechanics shall review some of these applications and present new advances that can potentially stimulate the birth of new technologies. It should be indicated that novel technologies solely predicted by hadronic mechanics have reached industrial applications, such as Thunder Energy Corporation, a U. S. publicly traded company with stock symbol TNRG, that has developed the first laboratory synthesis of neutrons from a hydrogen gas and is now entering into production and sale of the related equipment. Click For More Here