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Principles and Structure of the Real Multiverse: Explanation of Dark Matter and Dark Energy Phenomena
Alexander Alexandrovich Antonov
Issue:
Volume 4, Issue 1, January 2015
Pages:
1-9
Received:
11 December 2014
Accepted:
28 December 2014
Published:
12 January 2015
Abstract: Many hypotheses of the Multiverse have been suggested; however, they are so extraordinary that the Universes they include will never – even in the most distant future – be accessible for people. That is, they will always remain non-existent. Therefore, the hypothesis of the real Multiverse is suggested, where parallel Universes comply with the similarity principle, that is, the laws of nature governing them have much in common. This circumstance enables the inhabitants of this Multiverse to visit parallel Universes. The suggested Multiverse hypothesis relies on the adjusted special theory of relativity (the STR), where the ambiguity of the second postulate is eliminated by removing the statements on the unbreakable light speed barrier and on imaginary numbers having no physical meaning. The fact that imaginary numbers have physical meaning is supported by a theoretical and experimental investigation of oscillation processes in linear electric circuits. Since mathematics is a common and unambiguous language of science, the principle of the physical reality of imaginary numbers must be accepted as the general scientific one, true, in particular, for the STR. It is demonstrated that the Multiverse hypothesis suggested herein explains the phenomenon of the dark matter and the dark energy.
Abstract: Many hypotheses of the Multiverse have been suggested; however, they are so extraordinary that the Universes they include will never – even in the most distant future – be accessible for people. That is, they will always remain non-existent. Therefore, the hypothesis of the real Multiverse is suggested, where parallel Universes comply with the simi...
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Half-Spin Particles Modeled as Electromagnetic Resonance Based Micro-Black-Holes
Issue:
Volume 4, Issue 1, January 2015
Pages:
10-14
Received:
26 December 2014
Accepted:
8 January 2015
Published:
20 January 2015
Abstract: The energy conversion process in a cosmic expansion scenario, initially in a radiation dominated phase that transits to a half-spin particle matter dominated phase, is characterized as due to an electromagnetic resonance based process with an altered light speed that can be linked to particle based gravitational time dilation. Such a matter formation process is shown to have a space-time signature that is consistent with a General Relativity Schwarzschield micro-black-hole solution. Using Special Relativity as a constraint condition, half-spin particles, when viewed as micro-black-holes, can have the same physically relevant gravitational analytical solutions as General Relativity.
Abstract: The energy conversion process in a cosmic expansion scenario, initially in a radiation dominated phase that transits to a half-spin particle matter dominated phase, is characterized as due to an electromagnetic resonance based process with an altered light speed that can be linked to particle based gravitational time dilation. Such a matter formati...
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Apparent Nuclear Transmutations without Neutron Emission Triggered by Pseudoprotons
Issue:
Volume 4, Issue 1, January 2015
Pages:
15-18
Received:
4 January 2015
Accepted:
13 January 2015
Published:
23 January 2015
Abstract: In this paper, we review the work by Don Carlo Borghi and R. M. Santilli on the laboratory synthesis of the neutron from the proton and the electron under the laws of hadronic mechanics. We then review the prediction of a subsequent synthesis, this time, of the neutron and the electron into a new particle, known as Santilli pseudoproton, which has essentially the same characteristics of the neutron except being negatively charged. We then outline, apparently for the first time, ongoing research on esoenergetic nuclear transmutations without neutron emission that are triggered by a flux of Santilli pseudoprotons.
Abstract: In this paper, we review the work by Don Carlo Borghi and R. M. Santilli on the laboratory synthesis of the neutron from the proton and the electron under the laws of hadronic mechanics. We then review the prediction of a subsequent synthesis, this time, of the neutron and the electron into a new particle, known as Santilli pseudoproton, which has ...
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A Non Quasi Exact Solvable Eigenvalue Problem with PT-Invariant Non-Hermitian Complex Potential
Marwan Izzat El-Kawni,
Abdulla Jameel Sous
Issue:
Volume 4, Issue 1, January 2015
Pages:
19-21
Received:
27 September 2014
Accepted:
6 January 2015
Published:
27 January 2015
Abstract: It is well known that the quasi-exact solvable eigenvalues of the Schrödinger equation with potential V(x)=-(ξcosh2x-iM)2 is real for PT-invariant non-Hermitian potential in case the parameter M is odd integer and complex conjugate pairs when M is even integer. In this work the Asymptotic Iteration Method (AIM) were used to solve this problem for M odd and even integer, and for any non-integer M values.
Abstract: It is well known that the quasi-exact solvable eigenvalues of the Schrödinger equation with potential V(x)=-(ξcosh2x-iM)2 is real for PT-invariant non-Hermitian potential in case the parameter M is odd integer and complex conjugate pairs when M is even integer. In this work the Asymptotic Iteration Method (AIM) were used to solve this problem for M...
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Mid-Infrared Gas Sensor for Pollutants: Case Study, Mexico City
G. E. Sandoval-Romero,
V. Argueta-Diaz
Issue:
Volume 4, Issue 1, January 2015
Pages:
22-25
Received:
27 October 2014
Accepted:
31 December 2014
Published:
28 January 2015
Abstract: This paper analyses the feasibility of studying the composition of the suspended particles in Mexico City, using for this study, an optical method to choose the most appropriate source of emission, depending on the environmental components. The proper choice of the emission source, allows a more correct assessment of the concentration of pollutants and their characteristics, always harmful to human health. To achieve this, is used the Mie scattering calculations, which are performed for spherical particles like here are studied.
Abstract: This paper analyses the feasibility of studying the composition of the suspended particles in Mexico City, using for this study, an optical method to choose the most appropriate source of emission, depending on the environmental components. The proper choice of the emission source, allows a more correct assessment of the concentration of pollutants...
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