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Paperback. Condition: new. Paperback. What if the key to unlimited clean energy lies hidden in pure mathematics? In this groundbreaking monograph, theoretical physicist Robert Dosseh-Kpotogbey reveals an astonishing connection between the Riemann zeta function-one of mathematics' greatest unsolved mysteries-and the achievement of steady-state nuclear fusion. Drawing on years of research at the intersection of number theory and plasma physics, this work demonstrates how the non-trivial zeros of the zeta function may fundamentally regulate fusion plasma behavior. The implications are profound: confinement times of 400-1056 seconds, neutral beam injection powers of 4.5-18.6 MW, and predictions that match experimental results from EAST, Wendelstein 7-X, and other leading tokamaks with remarkable precision. From the solar corona paradox to negative triangularity optimization, from catastrophe theory to quantum chaos, this comprehensive synthesis bridges seemingly disparate domains to illuminate the mathematical architecture underlying controlled fusion. For researchers, physicists, and mathematicians seeking novel approaches to humanity's energy challenge, this work offers both theoretical foundations and practical pathways toward making fusion power a reality. This item is printed on demand. Shipping may be from multiple locations in the US or from the UK, depending on stock availability.
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Published by Eliva Press Jul 2024, 2024
ISBN 10: 163648736X ISBN 13: 9781636487366
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Paperback. Condition: new. Paperback. What if the key to unlimited clean energy lies hidden in pure mathematics? In this groundbreaking monograph, theoretical physicist Robert Dosseh-Kpotogbey reveals an astonishing connection between the Riemann zeta function-one of mathematics' greatest unsolved mysteries-and the achievement of steady-state nuclear fusion. Drawing on years of research at the intersection of number theory and plasma physics, this work demonstrates how the non-trivial zeros of the zeta function may fundamentally regulate fusion plasma behavior. The implications are profound: confinement times of 400-1056 seconds, neutral beam injection powers of 4.5-18.6 MW, and predictions that match experimental results from EAST, Wendelstein 7-X, and other leading tokamaks with remarkable precision. From the solar corona paradox to negative triangularity optimization, from catastrophe theory to quantum chaos, this comprehensive synthesis bridges seemingly disparate domains to illuminate the mathematical architecture underlying controlled fusion. For researchers, physicists, and mathematicians seeking novel approaches to humanity's energy challenge, this work offers both theoretical foundations and practical pathways toward making fusion power a reality. This item is printed on demand. Shipping may be from our Sydney, NSW warehouse or from our UK or US warehouse, depending on stock availability.
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Paperback. Condition: new. Paperback. What if the key to unlimited clean energy lies hidden in pure mathematics? In this groundbreaking monograph, theoretical physicist Robert Dosseh-Kpotogbey reveals an astonishing connection between the Riemann zeta function-one of mathematics' greatest unsolved mysteries-and the achievement of steady-state nuclear fusion. Drawing on years of research at the intersection of number theory and plasma physics, this work demonstrates how the non-trivial zeros of the zeta function may fundamentally regulate fusion plasma behavior. The implications are profound: confinement times of 400-1056 seconds, neutral beam injection powers of 4.5-18.6 MW, and predictions that match experimental results from EAST, Wendelstein 7-X, and other leading tokamaks with remarkable precision. From the solar corona paradox to negative triangularity optimization, from catastrophe theory to quantum chaos, this comprehensive synthesis bridges seemingly disparate domains to illuminate the mathematical architecture underlying controlled fusion. For researchers, physicists, and mathematicians seeking novel approaches to humanity's energy challenge, this work offers both theoretical foundations and practical pathways toward making fusion power a reality. This item is printed on demand. Shipping may be from our UK warehouse or from our Australian or US warehouses, depending on stock availability.
Language: English
Published by Eliva Press Jul 2024, 2024
ISBN 10: 163648736X ISBN 13: 9781636487366
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Taschenbuch. Condition: Neu. This item is printed on demand - Print on Demand Titel. Neuware -To make a better parallel between quantum entanglement and Young's double-slit interferometer (or Young's interferences) we find the matter-dimension symmetry which says that in 3 dimensions we have: with x: amplification ratio, mi.x = Mplanck, . . , in 5 dimensions we have: with x: amplification ratio, mi .xż = Mplanck and in n dimensions: m^(n-2).x^(n-1) = h^((n-2 )/2)\*C^((n-2)/2)/G^((n-2)/2), with Mplanck^d = h^(d/2)\*C^(d/2)/G^(d/2).A magnetically Arrested Disks should prevent the formation of jets via an accretion disk. But particles as small as neutrinos come out of an accretion disk and function after the transformation of their initial mass mi: mi ż x.mi as matter (transformed matter) source of jets.In a dense plasma, such as that present in the hearts of stars, the number of neutrinos emitted per kilogram of matter can be of the order of 10ż1;ż to 10ż2;ż neutrinos per second, while on average, a kilogram of matter emits approximately 3 x 10ż1;ż neutrinos per second, and with black holes core edge we reach 1.75288144895719 x 10ż more neutrinos emitted (10ż2;ż x 1.75288144895719 x 10ż) to produce-transform x.m_anti-neutrino = 5.704892367906067\*10^-34 kg (xż10ż2;ż) from matter-dimension symmetry process.Libri GmbH, Europaallee 1, 36244 Bad Hersfeld 132 pp. Englisch.
Taschenbuch. Condition: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - To make a better parallel between quantum entanglement and Young's double-slit interferometer (or Young's interferences) we find the matter-dimension symmetry which says that in 3 dimensions we have: with x: amplification ratio, mi.x = Mplanck, . . , in 5 dimensions we have: with x: amplification ratio, mi .xż = Mplanck and in n dimensions: m^(n-2).x^(n-1) = h^((n-2 )/2)\*C^((n-2)/2)/G^((n-2)/2), with Mplanck^d = h^(d/2)\*C^(d/2)/G^(d/2).A magnetically Arrested Disks should prevent the formation of jets via an accretion disk. But particles as small as neutrinos come out of an accretion disk and function after the transformation of their initial mass mi: mi ż x.mi as matter (transformed matter) source of jets.In a dense plasma, such as that present in the hearts of stars, the number of neutrinos emitted per kilogram of matter can be of the order of 10ż1;ż to 10ż2;ż neutrinos per second, while on average, a kilogram of matter emits approximately 3 x 10ż1;ż neutrinos per second, and with black holes core edge we reach 1.75288144895719 x 10ż more neutrinos emitted (10ż2;ż x 1.75288144895719 x 10ż) to produce-transform x.m_anti-neutrino = 5.704892367906067\*10^-34 kg (xż10ż2;ż) from matter-dimension symmetry process.
Taschenbuch. Condition: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - What if the key to unlimited clean energy lies hidden in pure mathematics In this groundbreaking monograph, theoretical physicist Robert Dosseh-Kpotogbey reveals an astonishing connection between the Riemann zeta function-one of mathematics' greatest unsolved mysteries-and the achievement of steady-state nuclear fusion. Drawing on years of research at the intersection of number theory and plasma physics, this work demonstrates how the non-trivial zeros of the zeta function may fundamentally regulate fusion plasma behavior. The implications are profound: confinement times of 400-1056 seconds, neutral beam injection powers of 4.5-18.6 MW, and predictions that match experimental results from EAST, Wendelstein 7-X, and other leading tokamaks with remarkable precision. From the solar corona paradox to negative triangularity optimization, from catastrophe theory to quantum chaos, this comprehensive synthesis bridges seemingly disparate domains to illuminate the mathematical architecture underlying controlled fusion. For researchers, physicists, and mathematicians seeking novel approaches to humanity's energy challenge, this work offers both theoretical foundations and practical pathways toward making fusion power a reality.
Taschenbuch. Condition: Neu. Matter-Dimensions Symmetry | Particles easier than photons, neutrinos more abundant than photons, Energy-Dimensions Quasar-Jets | Robert Dosseh-Kpotogbey | Taschenbuch | Englisch | 2024 | Eliva Press | EAN 9781636487366 | Verantwortliche Person für die EU: Libri GmbH, Europaallee 1, 36244 Bad Hersfeld, gpsr[at]libri[dot]de | Anbieter: preigu Print on Demand.
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Taschenbuch. Condition: Neu. The Mathematical Architecture of Nuclear Fusion | Bridging Riemann's Zeta Function and Magnetohydrodynamics | Robert Dosseh-Kpotogbey | Taschenbuch | Englisch | 2026 | Eliva Press | EAN 9789999336642 | Verantwortliche Person für die EU: Libri GmbH, Europaallee 1, 36244 Bad Hersfeld, gpsr[at]libri[dot]de | Anbieter: preigu Print on Demand.
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Paperback. Condition: new. Paperback. The Riemann Hypothesis states that the non-trivial zeros of the Riemann zeta function z(s) lie on the critical line where the real part of s is 1/2. This work argues that conventional finite computations, even with the most powerful supercomputers, will yield imprecise solutions to the Riemann Hypothesis unless the computational capacity is infinite. Our research provides a mathematical approach to precisely determine the imaginary parts of these non-trivial zeros, denoted as {b}, rather than relying on experimental or approximate methods. We start with the fundamental function X2;.(Y2.k3)+Y3; 0 (Eq0) as a generator for these solutions. By linking X(n)+iY(n) to {b}, we demonstrate that as n approaches infinity, zeta(s) approaches 0, with the real part a = 1/2. The methodology involves calculating b values from a specific element of zeta(s) and showing that the other part of z(s) inherently introduces a = 1/2 as n approaches +infinity. This is supported by new calculations and an extended data table (Table II). Further exploration delves into the variations of k3 and their effect on the b values. We utilize two key equations (Eq1 and Eq2) to model the behavior of the solutions. For instance, when k3 = -5, we find roots for s2 = sin(log(2) * b) near 0.988. This leads to a set of b values, such as 88.602, 79.537, and others, when k ranges from -10 to 10. Similar patterns are observed for k3 = -4, -3, -2, -1, consistently showing that the computed b values align closely with the known imaginary parts of the non-trivial zeros of rho_k (e.g., 14.134., 21.022., 25.010.). The research also examines how other values of a (the real part) can be obtained from the function k = ((-1)^(1/(1-a))-1) * n, demonstrating that a = 1/2 is a specific case where k=0. This comprehensive analysis supports the assertion that the Riemann Hypothesis can be rigorously proven by establishing a = 1/2 for any b value, thereby validating the solutions to the zeta function derived from this framework. This item is printed on demand. Shipping may be from multiple locations in the US or from the UK, depending on stock availability.
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Paperback. Condition: new. Paperback. The Riemann Hypothesis states that the non-trivial zeros of the Riemann zeta function z(s) lie on the critical line where the real part of s is 1/2. This work argues that conventional finite computations, even with the most powerful supercomputers, will yield imprecise solutions to the Riemann Hypothesis unless the computational capacity is infinite. Our research provides a mathematical approach to precisely determine the imaginary parts of these non-trivial zeros, denoted as {b}, rather than relying on experimental or approximate methods. We start with the fundamental function X2;.(Y2.k3)+Y3; 0 (Eq0) as a generator for these solutions. By linking X(n)+iY(n) to {b}, we demonstrate that as n approaches infinity, zeta(s) approaches 0, with the real part a = 1/2. The methodology involves calculating b values from a specific element of zeta(s) and showing that the other part of z(s) inherently introduces a = 1/2 as n approaches +infinity. This is supported by new calculations and an extended data table (Table II). Further exploration delves into the variations of k3 and their effect on the b values. We utilize two key equations (Eq1 and Eq2) to model the behavior of the solutions. For instance, when k3 = -5, we find roots for s2 = sin(log(2) * b) near 0.988. This leads to a set of b values, such as 88.602, 79.537, and others, when k ranges from -10 to 10. Similar patterns are observed for k3 = -4, -3, -2, -1, consistently showing that the computed b values align closely with the known imaginary parts of the non-trivial zeros of rho_k (e.g., 14.134., 21.022., 25.010.). The research also examines how other values of a (the real part) can be obtained from the function k = ((-1)^(1/(1-a))-1) * n, demonstrating that a = 1/2 is a specific case where k=0. This comprehensive analysis supports the assertion that the Riemann Hypothesis can be rigorously proven by establishing a = 1/2 for any b value, thereby validating the solutions to the zeta function derived from this framework. This item is printed on demand. Shipping may be from our UK warehouse or from our Australian or US warehouses, depending on stock availability.