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Main Author: Suhaimi, Mohd Shah Khairi
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Published: Zenodo 2025
Online Access:https://doi.org/10.5281/zenodo.17445797
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author Suhaimi, Mohd Shah Khairi
author_facet Suhaimi, Mohd Shah Khairi
contents <p><strong>Khairi Plasma Energy Coupling Relation (KPCR) — A Generalized Coupling Model for Plasma-Energy Conversion Efficiency</strong></p> <p><span lang="EN-US">This paper introduces the Khairi Plasma Energy Coupling Relation (KPCR) — a unified theoretical and empirical framework describing the conversion of classical kinetic energy into plasma energy via a single coupling coefficient, ηK. The model establishes a direct proportionality between kinetic energy and plasma excitation, allowing quantification of plasma yield, radius expansion, and power output under varied coupling conditions. Numerical simulations confirm its accuracy for propulsion applications and its scalability across electrostatic, Hall, and fusion-assisted thrusters.</span></p> <p><span lang="EN-US">The generation of plasma from directed kinetic energy underlies most electric and fusion-propulsion systems. Traditional models depend on complex thermodynamic and electromagnetic solvers, which limit real-time predictability. The Khairi Plasma Energy Coupling Relation (KPCR) offers a simplified yet physically consistent representation, expressing plasma generation as a direct function of measurable kinetic parameters and an empirical efficiency factor.</span></p> <p> </p>
format Recurso digital
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institution Zenodo
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publishDate 2025
publisher Zenodo
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spellingShingle Khairi Plasma Energy Coupling Relation (KPCR) — A Generalized Coupling Model for Plasma-Energy Conversion Efficiency
Suhaimi, Mohd Shah Khairi
<p><strong>Khairi Plasma Energy Coupling Relation (KPCR) — A Generalized Coupling Model for Plasma-Energy Conversion Efficiency</strong></p> <p><span lang="EN-US">This paper introduces the Khairi Plasma Energy Coupling Relation (KPCR) — a unified theoretical and empirical framework describing the conversion of classical kinetic energy into plasma energy via a single coupling coefficient, ηK. The model establishes a direct proportionality between kinetic energy and plasma excitation, allowing quantification of plasma yield, radius expansion, and power output under varied coupling conditions. Numerical simulations confirm its accuracy for propulsion applications and its scalability across electrostatic, Hall, and fusion-assisted thrusters.</span></p> <p><span lang="EN-US">The generation of plasma from directed kinetic energy underlies most electric and fusion-propulsion systems. Traditional models depend on complex thermodynamic and electromagnetic solvers, which limit real-time predictability. The Khairi Plasma Energy Coupling Relation (KPCR) offers a simplified yet physically consistent representation, expressing plasma generation as a direct function of measurable kinetic parameters and an empirical efficiency factor.</span></p> <p> </p>
title Khairi Plasma Energy Coupling Relation (KPCR) — A Generalized Coupling Model for Plasma-Energy Conversion Efficiency
url https://doi.org/10.5281/zenodo.17445797