Gravitational Interaction of Quantum Level and Consequences Thereof

Fisenko, S. I.; Fisenko, I. S.

doi:10.2478/v10005-009-0010-5

Cited by 7 publications

(12 citation statements)

References 4 publications

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“…In elaboration of the relativistic theory of gravitation (namely the relativistic theory of gravitation rather than its particular case such as GR) the authors have obtained a model of gravitational interaction at quantum level having no equivalents and making gravitational radiation spectrum computing possible. These results are particularized in the work of Fisenko S. I. and Fisenko I. S. (2009). Generalized summary of those results followed by their possible development is described in section 1 hereafter.…”

Section: Introductionmentioning

confidence: 92%

“…The equations of the form (1) were found by Hilbert (1915) simultaneously with Einstein and independently of him. The work of Fisenko and Fisenko (2009) makes a simple but strict suggestion that the quantum area may contain numeric values of the constants K and , that account for steady states in proper gravitational field. It is these states that make up the sources of gravitational field with the Newtonian gravitational constant.…”

Section: Gravitational Radiation As a Radiation Of The Same Level As mentioning

confidence: 99%

“…In its simplest approximation (from the point of view of the original mathematical estimates) the problem on steady states in proper gravitational field (with constants K and  ) is solved by Fisenko and Fisenko (2009) c) The transitions to stationary states of the electron in proper gravitational field cause gravitational emission, which is characterized by constant K, i. e. gravitational emission is an emission of the same level as electromagnetic (electric charge e, gravitational charge…”

Section: Gravitational Radiation As a Radiation Of The Same Level As mentioning

confidence: 99%

“…A notion of gravitational radiation as a radiation of the same level as electromagnetic one is based on the theoretically proved and experimentally verifiable fact (Fisenko & Fisenko, 2009) of electron stationary states existence in proper gravitational field characterized by gravitational constant K=10 42 G (G is the Newtonian gravitation constant).…”

Section: Thusmentioning

confidence: 99%

See 3 more Smart Citations

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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Section: Introductionmentioning

confidence: 92%

Section: Gravitational Radiation As a Radiation Of The Same Level As mentioning

confidence: 99%

Section: Gravitational Radiation As a Radiation Of The Same Level As mentioning

confidence: 99%

Section: Thusmentioning

confidence: 99%

See 2 more Smart Citations

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

Fisenko¹,

Fisenko²

2010

APR

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“…In the simplest (in terms of initial mathematical evaluations) approximation, the problem for stationary states in its gravitational field (with the constants K and Λ ) was solved in [7]. 2) These steady states are the sources of the gravitational field with constant G.…”

Section: Energy Spectrummentioning

confidence: 99%

The Problem on Stationary States in Self Gravitational Field

Fisenko¹

2016

JMP

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To follow is the problem on stationary states of an electron in its own gravitational field where the boundary conditions earlier described in [1] are made specific. The simplest approximation provides an assessment of the energy spectrum of stationary states only. Nevertheless, this is enough to confirm the existence of such stationary states and to further elaborate a detailed solution of the problem on stationary states including determination of all the quantum numbers' spectra and corresponding wave functions. No other matters are discussed here. The case in hand is a purely mathematical problem, further physical interpretation of which is of a fundamental value.

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On the issue of gravitational radiation and thermonuclear fusion

Fisenko

2020

J. Phys.: Conf. Ser.

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In this work, without involving any additional assumptions and constructions (using only the equations of quantum mechanics and the equations of the relativistic theory with the A-member), a particle model was obtained, making it possible to calculate the quantum states generated by the gravitational interaction. Gravitational radiation (as a result of transitions over stationary states of a particle in its own gravitational field) can be excited in a dense high-temperature plasma and amplified under certain conditions, but its amplification will lead to compression of the radiating system. Consequently, under conditions of amplification of gravitational radiation, there will not be observedgravitational radiation itself, but only the result of its action. In this case, the quantitative characteristics of the spectrum of gravitational radiation (as radiation of the same level with electromagnetic radiation) can be determined by the broadening of the spectrum of electromagnetic radiation. The very fact of plasma compression by a radiated gravitational field can be used for thermonuclear fusion.

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Gravitational Interaction of Quantum Level and Consequences Thereof

Cited by 7 publications

References 4 publications

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

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

The Problem on Stationary States in Self Gravitational Field

On the issue of gravitational radiation and thermonuclear fusion

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