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Wildfire suppression technology: Exploration for a directed energy beam (DEB) attenuating electron transfer by cyclical vacuum subduction of dioxygen dication species, O22+ - IOPscience

Wildfire suppression technology: Exploration for a directed energy beam (DEB) attenuating electron transfer by cyclical vacuum subduction of dioxygen dication species, O22+ - IOPscience This site uses cookies. By continuing to use this site you agree to our use of cookies. To find out more, see our Privacy and Cookies policy. Close this notification Skip to content Accessibility Links Skip to content Skip to search IOPscience Skip to Journals list Accessibility help IOP Science home Accessibility Help Search Journals Journals list Browse more than 100 science journal titles Subject collections Read the very best research published in IOP journals Publishing partners Partner organisations and publications Open access IOP Publishing open access policy guide IOP Conference Series Read open access proceedings from science conferences worldwide Books Publishing Support Login IOPscience login / Sign Up Click here to close this panel. 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(2014 - 2018)Waves Random Media (1991 - 2004) Volume number: Issue number (if known): Article or page number: Journal of Physics: Conference Series Paper • The following article is Open access Wildfire suppression technology: Exploration for a directed energy beam (DEB) attenuating electron transfer by cyclical vacuum subduction of dioxygen dication species, O22+ Richard L Amoroso1, Salvatore Giandinoto1 and Sabah E Karam2 Published under licence by IOP Publishing Ltd Journal of Physics: Conference Series, Volume 1251, Advances in Fundamental Physics: Prelude to Paradigm Shift, 11th International Symposium Honoring Noted Mathematical Physicist Jean-Pierre Vigier 6–9 August 2018, Liege, Belgium Citation Richard L Amoroso et al 2019 J. Phys.: Conf. Ser. 1251 012006 DOI 10.1088/1742-6596/1251/1/012006 Download Article PDF Figures Skip to each figure in the article Tables Skip to each table in the article References Citations Article data Skip to each data item in the article What is article data? Download Article PDF Article metrics 856 Total downloads MathJax Turn off MathJax Turn on MathJax Share this article Article and author information Author [email protected]@[email protected] Author affiliations1 Noetic Advanced Studies Institute, Hogan's Wash, Escalante Desert UT 84714 USA 2 Morgan State University, 1700 E Cold Spring Ln, Baltimore, MD 21251 USA Buy this article in print Journal RSS Sign up for new issue notifications 1742-6596/1251/1/012006 Abstract Modeling wildfire suppression technology, inspired by Einstein's long quest for a final theory, is based on a Unified Field Mechanical (UFM) Ontological-Phase Topological Field Theory (OPTFT) derived from modified M-theory, parameters of the Wheeler-Feynman-Cramer Transactional Interpretation, with combined extensions of a de Broglie-Bohm Implicate Order super-quantum potential as a unified field force of coherence control factor. The device is multiphasic. Operationally, O2 electron transfer attenuation occurs by nonlocal matter-wave phase adduction/subduction interference nodes in dynamic-static Casimir-Polder resonant interactions pertinent to bumps and holes within a covariant polarized Dirac vacuum as the most salient feature of dioxygen dication, O2 2+ coupling to mirror symmetric nonlocal antispace (vacuum), rather than neutral molecular species in local 3-space as demonstrated in experimental studies of dioxygen dication, O2 2+. Additionally, beam emission requires a new dual class of nonlocal OCHRE (Oscillation Coupled Helicoid Resonance Emission) in tandem with localized OCRET (Optically Controlled Resonance Energy Transfer) to produce ballistic-like conduction of vacuum energy by the summation of cyclical resonant incursive oscillations within the structure of cellular Least Units tessellating spacetime as a means of mediating the additional dimensionality (XD) of brane topological phase transitions in the Bulk. Finally, device operation requires an M-theoretic form of scalable universal quantum computing (UQC), a paradigm shift beyond confines of the locality-unitarity basis of presently standard Copenhagen quantum theory. Export citation and abstract BibTeX RIS Previous article in issue Next article in issue Content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI. Show References Please wait… references are loading. AbstractReferences Back to top 10.1088/1742-6596/1251/1/012006 You may also like Assistant Professor in Quantum Computing & Quantum Information (Computational Theory) Rensselaer Polytechnic Institute Post-Doctoral Fellowship in Organic Thin Film Devices and Phenomena University of Michigan Faculty position in theoretical physics (Lecturer/Reader/Professor) University of St Andrews, School of Physics & Astronomy More jobs Post a job IOP Science home Journals Books About IOPscience Contact us Developing countries access IOP Publishing open access policy Accessibility IOP Publishing home © Copyright 2023 IOP Publishing Terms & conditions Disclaimer Privacy & cookie policy This link opens in a new tab. This site uses cookies. 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