Quantum correlations — Spin supercurrents

Boldyreva, Liudmila B.

doi:10.1142/s0219749914500075

Cited by 11 publications

(14 citation statements)

References 14 publications

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“…The temperature T determines the velocity y ( 2 y KT m = ) of thermal chaotic motion of quantum entities (with mass m) that constitute "dark" matter and consequently the velocity of motion of virtual photons (virtual particles pairs) created by those entities. The speed of quantum entities influences the following characteristics of virtual photons: the value of the deflection angle, see Equation (15); the direction and the value of precession frequency v ω , see Equations ((8), (9)). As the virtual photon is a vortex in the physical vacuum consisting of QHOs, the changes in characteristics of virtual photons mean the changes in the characteristics of QHOs as well.…”

Section: The Condition Of Disappearance Of Wave-vortex-spin Processmentioning

confidence: 99%

“…Thus QHO as a harmonic oscillator having precessing spin might be classified as a spin vortex, and the frequency of oscillations QHO Ω may be the precession frequency of spin of QHO. Consequently, QHO may possess the properties of such spin vortex as the virtual photon and the expressions similar to (4)-(5),(9) and(14)-(15) hold true as well for QHO, that is:…”

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confidence: 93%

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An Analogy between the Properties of “Dark Energy” and Physical Vacuum Consisting of Quantum Harmonic Oscillators Characterized by Zero-Point Energy

Boldyreva¹

2019

JMP

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In quantum field theory, the physical vacuum, free from magnetic and electric fields (without regard to gravitational energy), is defined not as an empty space but as the ground state of the field consisting of quantum harmonic oscillators (QHOs) characterized by zero-point energy. The aim of this work is to show that such physical vacuum may possess the properties similar to the properties of dark energy: the positive density, the negative pressure, and the possibility of so-called accelerated expansion. In the model discussed, the mass of QHOs determines the positive density of dark energy. The observed electric polarization of physical vacuum in an electric field means the existence of electric dipole moment of QHO, which, in turn, suggests the existence inside the QHO of a repulsive force between unlike charges compensating the attractive Coulomb force between the charges. The existence of such repulsive force may be treated as the existence of omniradial tensions inside every QHO. In terms of hydrodynamics, it means that the vacuum with this property may be regarded as a medium with negative pressure. The electric dipole-dipole interaction of QHOs under some condition may result in the expansion of physical vacuum consisting of QHOs. It is shown also that the physical vacuum consisting of QHOs is a luminiferous medium, and based on this concept the conditions are discussed for the emergence of invisiblity of any objects (in particular, dark matter). The existence of luminiferous medium does not contradict the second postulate of special relativity (the principle of constancy of the velocity of light in inertial systems), if to take into account the interaction of photons with QHOs and with virtual photons (the virtual particles pairs) created by quantum entities that constitute the inertial systems. How to cite this paper: Boldyreva, L.B.

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Section: The Condition Of Disappearance Of Wave-vortex-spin Processmentioning

confidence: 99%

mentioning

confidence: 93%

An Analogy between the Properties of “Dark Energy” and Physical Vacuum Consisting of Quantum Harmonic Oscillators Characterized by Zero-Point Energy

Boldyreva¹

2019

JMP

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“…Consequently, one may say about a distant transfer of properties of one quantum object to another. The phenomenon of distant transfer of properties between quantum objects with the properties satisfying conditions (2)-(3) are well-known and has been studied for almost a century, being termed as quantum correlation [11][12][13][14]. At present in quantum mechanics this phenomenon is frequently called "teleportation" as well.…”

Section: Quantum Correlations Of Quantum Objectsmentioning

confidence: 99%

Disease Transmission by Spin Supercurrent

Boldyreva

2019

MRAJ

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At present only one way of transmission of disease from an ill body organ to a healthy body organ is known: by means of living pathogenic microorganisms. It is shown in this work that there exists one more way of disease transmission from an ill body organ to a healthy one: by means of spin supercurrent. Spin supercurrents may not only play the role of microorganisms in transmission of diseases but transmit as well the diseases that are absolutely non-contagious from the standpoint of medical science. It is remarkable that spin supercurrent may transmit the peculiars of structure of DNA from one biological system (BS) to another. The effect of spin supercurrent is especially pronounced if the interacting body organs have some common characteristics, for example, in the case of organs of identical twins.

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“…One of the arguments in favor of possibility of the emergence of spin supercurrents not only between quantum entities but between photons as well (that is between spin vortices that constitute photons) is the existence of correlation of phases of spatially separated (some kilometers) photons of the same frequency. [19] In [10] this correlation is accounted for by emergence of spin supercurrents between spin vortices that constitute interacting photons.…”

Section: Spin Supercurrentmentioning

confidence: 99%

“…Consequently, the precession motion of the virtual particles pair spin may be introduced and thus a virtual particles pair may be considered as a spin vortex in the physical vacuum. According to conclusion of Boldyreva [10], the precession frequency of the vortex spin v ω equals frequency q ω of wave function of quantum entity, that is:…”

Section: Introductionmentioning

confidence: 99%

Exchange Interaction of Quantum Entities as Interaction of Spin Vortices Created by the Quantum Entities in the Physical Vacuum

Boldyreva¹

2018

IJP

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The aim of this paper is to show that there is a physical process that underlies the exchange interaction of quantum entities. To this end the features of exchange interaction of quantum entities in the following physical phenomena are discussed: the creation of Cooper pairs in superconductors and superfluids, the covalent (molecular) bond, the interaction of light beams. The explanation of the exchange interaction is based on the concept of quantum mechanics according to which the quantum entity that is a singularity in electric and/or magnetic fields produces in the physical vacuum a pair of oppositely charged virtual particles having precessing spin, that is being essentially a spin vortex in the physical vacuum. The analysis of the above mentioned phenomena allows one to suppose that the exchange interaction of quantum entities in these phenomena may be due to interaction of spin vortices created by these quantum entities in the physical vacuum. It is shown also that the interaction of these vortices may be an electric dipole-dipole interaction. The equations describing the electric dipole-dipole interaction of spin vortices are derived in this work. A possibility of influence of the dipole-dipole interaction of spin vortices created by quantum entities that constitute the medium on viscosity of the medium, that is, on its superconductive and superfluid properties is considered.

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Quantum correlations — Spin supercurrents

Cited by 11 publications

References 14 publications

An Analogy between the Properties of “Dark Energy” and Physical Vacuum Consisting of Quantum Harmonic Oscillators Characterized by Zero-Point Energy

An Analogy between the Properties of “Dark Energy” and Physical Vacuum Consisting of Quantum Harmonic Oscillators Characterized by Zero-Point Energy

Disease Transmission by Spin Supercurrent

Exchange Interaction of Quantum Entities as Interaction of Spin Vortices Created by the Quantum Entities in the Physical Vacuum

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