S. I. Fisenko scite author profile

The concept of gravitational radiation as a radiation of one level with the electromagnetic radiation is based on theoretically proved and experimentally confirmed fact of existence of electron’s stationary states in own gravitational field, characterized by gravitational constant K = 10⁴² G (G-Newtonian gravitational constant) and by irremovable space-time curvature. The received results strictly correspond to principles of the relativistic theory of gravitation and the quantum mechanics. The given work contributes into further elaboration of the findings considering their application to dense high-temperature plasma of multiple-charge ions. This is due to quantitative character of electron gravitational radiation spectrum such that amplification of gravitational radiation may take place only in multiple-charge ion high-temperature plasma. In elaboration of the authors’ works [1-4], an essential instantiation of the concept of fusion plasma’s steady states formation (as the last paragraph outlines) and boundary conditions refinement in the electron’s stationary-states-in-proper-gravitational-field problem are appended to this article.

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Gravitational Interaction of Quantum Level and Consequences Thereof

Fisenko¹,

Fisenko²

2009

Old and New Concepts of Physics

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Parity no conservation in the  decay processes is considered as fundamental 15 property of weak interactions. Nevertheless, this property can be treated as anomaly, because in fundamental interactions of the rest types parity is conserved. Analogously, anomaly in the short-duration strong-current pulse discharges is well known. The essence of this phenomenon consists in generation of local high-temperature plasma formations with the typical values of its thermo dynamical parameters exceeding those related to the 20 central section of a discharge. In this paper, an attempt is undertaken to treat these anomalies as manifestation of fundamental properties of gravitational emission. Some consequences of this assumption can be tested in the  decay experiments as well as in the experiments with short-duration z-pinch-type pulse discharges.The notion of gravitational emission as an emission of the same level with 25 electromagnetic emission is based on the proven fact of existence of electron's stationary states in its own gravitational field, characterized by gravitational constant K=10 42 G (G -Newton's gravitational constant). PACS 1999 -04.90.+e, 52.55.Ez, 23.40.-s.

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Gravitational radiation as radiation same level of electromagnetic and its generation in pulsed high-current discharge

Fisenko¹,

Fisenko²

2015

J. Phys.: Conf. Ser.

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The Conception of Thermonuclear Reactor on the Principle of Gravitational Confinement of Dense High-temperature Plasma

Fisenko¹,

Fisenko²

2010

APR

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The work of Fisenko S. I., & Fisenko I. S. (2009). The old and new concepts of physics, 6 (4), 495, shows the key fact of the existence of gravitational radiation as a radiation of the same level as electromagnetic. The obtained results strictly correspond to the framework of relativistic theory of gravitation and quantum mechanics. The given work contributes into further elaboration of the findings considering their application to dense high-temperature plasma of multiple-charge ions. This is due to quantitative character of electron gravitational emission spectrum such that amplification of gravitational emission may take place only in multiple-charge ion high-temperature plasma.PACS 1999 -04.90.+e, 52.55.Ez, 23.40.-s.

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S. I. Fisenko

Some notes on the concept of “strong” gravitation and possibilities of its experimental investigation

Method of Forming Stable States of Dense High-Temperature Plasma

Gravitational Interaction of Quantum Level and Consequences Thereof

Gravitational radiation as radiation same level of electromagnetic and its generation in pulsed high-current discharge

The Conception of Thermonuclear Reactor on the Principle of Gravitational Confinement of Dense High-temperature Plasma

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