On Electromagnetic Turbulence

Pinheiro, Mario J.

doi:10.48550/arxiv.2202.05840

Cited by 1 publication

(1 citation statement)

References 18 publications

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“…The most groundbreaking work on the subject is the theoretical research and practical analysis of proposed interstellar travel methods undertaken by Mario J. Pinheiro and Takaaki Musha, worldrenowned leaders in the field, and their seminal work Physics of Field Propulsion: Outline of Quantum Field Theory and Its Applications for Space Propulsion [4]. In the last couple of years, Mario J. Pinheiro has continued to build on this incredible research, with New Framework to Study Electromagnetic Turbulence [5], Advanced Topics in Contemporary Physics for Engineering: Nanophysics, Plasma Physics, and Electrodynamic [6] and finally Advances in Engine Efficiency: Nanomaterials, Surface Engineering, and Quantum-based Propulsion [7] all taking the idea of practical applications of quantum propulsion further than ever before.…”

Section: Method: Quantum Bubble Propulsion-more Than a Theorymentioning

confidence: 99%

Quantum Propulsion: Background and Practical Applications

Ioskevich

2024

EJPHYSICS

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This is the first introduction of new and revolutionary aerospace engines and propulsion methods. Our organization is currently developing quantum propulsion systems and space vehicles that will be capable of flying with enormous speed (potentially reaching and exceeding the speed of light) and will have unseen-before manoeuvrability and lifting capacity. They will provide 100% crew protection from deadly sun and space radiation which is essential for safe deep space travel and manned space exploration. They will also provide spacecraft with protection against space particles. To date, we have managed to crack the main secret of practical quantum engine design and we are ready to develop it further into fully operational aerospace vehicles. Quantum propulsion systems are the only systems that can facilitate realistic prospects of space mining on the industrial scale and deep space colonisation, including colonisation of habitable planets in the future. The cost efficiency of this new technology is going to be enormous. Development and production costs of quantum aerospace vehicles compared to production costs of chemical fuel jet spacecraft allow to reduce price per kilo space launch ratio hundreds of times, making deep space exploration and commercialisation more accessible and practically feasible at last. Manufacturing and maintenance of quantum-propelled flying machines that can reach the age of our solar system within hours will be no more expensive than manufacturing jet planes or helicopters of the same size. Quantum propulsion systems are going to replace outdated chemical fuel rocket and jet engines in the near future and will become the mainstay of air travel and space exploration.

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Section: Method: Quantum Bubble Propulsion-more Than a Theorymentioning

confidence: 99%

Quantum Propulsion: Background and Practical Applications

Ioskevich

2024

EJPHYSICS

View full text Add to dashboard Cite

show abstract

On Electromagnetic Turbulence

Cited by 1 publication

References 18 publications

Quantum Propulsion: Background and Practical Applications

Quantum Propulsion: Background and Practical Applications

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