The Role of Vacuum Polarization in the Large Hadron Collider

The Role of Vacuum Polarization in the Large Hadron Collider

Stanislav Konstantinov

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The Role of Vacuum Polarization in the Large Hadron Collider

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Abstract

The article discusses experimental discoveries recently made at the Large Hadron Collider (LHC) and not received an explanation in the Standard Model. The recognition of the polarization of quantum vacuum (dark matter) under the action of ultra relativistic protons and superpower magnetic and electric fields distorts the spatial patterns in the LHC and allows us to state the presence of the third channel of proton interaction in the LHC, in addition to their mutual collisions.

References

15 Cites in Article

Reference Format

Yu Eroshenko (2019). Physics news on the Internet (based on electronic preprints).
Stanislav Konstantinov (2019). Dark Matter Domains as Volume Resonators of Electromagnetic, Gravitational and Spin Energy.
I Dremin (2015). The interaction region of high energy protons.
I Dremin (2018). Some new discoveries at colliders.
V Burkert,L Elouadrhiri,F Girod (2018). The pressure distribution inside the proton.
E Levichev,A Skrinsky,G Tumaikin,Yu Shatunov (2018). Electron–positron beam collision studies at the Budker Institute of Nuclear Physics.
Yu Galaktionov (2017). Search for antimatter and dark matter, precision studies of the cosmic rays fluxes on the international space station. AMS experiment. Results of four year exposure.
Roger Barlow (2018). Tenured Radicals: How Politics Has Corrupted Our Higher Education, Roger Kimball. 1990. Harper and Row, New York, NY. 204 pages. ISBN: $18.95.
Stanislav Konstantinov (2020). The Key to the Puzzle “Effect PAMELA”.
P Higgs (1964). Broken symmetries, massless particles and gauge fields.
V Rubakov (2012). Higgs Boson.
Leo Sapogin,Ryabov Yu (2016). The Mass Spectrum of Elementary Particles in Unitary Quantum Theory and Standard Model.
Leo Sapogin,Yu Ryabov,V Boichenko (2015). The Unitary Quantum Theory and a New Sources of Energy.
Leo Sapogin,V Dzhanibekov,M Moкulsky,Yu. Ryabov,Yu. Savin,V Utchastkin (2015). About the Conflicts between the Unitary Quantum Theory and the Special and General Relativity Theories.
Joseph Lykken,Maria Spiropulu (2014). Supersymmetry and the Crisis in Physics.

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Funding

No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

Ethical Approval

No ethics committee approval was required for this article type.

Data Availability

Not applicable for this article.

How to Cite This Article

Stanislav Konstantinov. 2020. \u201cThe Role of Vacuum Polarization in the Large Hadron Collider\u201d. Global Journal of Science Frontier Research - A: Physics & Space Science GJSFR-A Volume 20 (GJSFR Volume 20 Issue A4).

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GJSFR Volume 20 Issue A4

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Journal Specifications

Crossref Journal DOI 10.17406/GJSFR

Print ISSN 0975-5896

e-ISSN 2249-4626

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GJSFR-A Classification FOR Code: 020302

Submission ReceivedMarch 8, 2020
Peer Review Double Blind
Handling Editor
Accepted April 3, 2020
Published April 17, 2020

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v1.2

Issue date

April 27, 2020

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