Maximal Attainable Boost and Energy of Elementary Particles as a Manifestation of the Limit of Localizability of Elementary Quantum Systems

Collection:

Clark Atlanta University Faculty Publications

Title:

Maximal Attainable Boost and Energy of Elementary Particles as a Manifestation of the Limit of Localizability of Elementary Quantum Systems

Creator:

Japaridze, George

Date of Original:

2016-03-01

Subject:

African Americans--Education (Higher)--Georgia
Clark Atlanta University

Location:

United States, Georgia, Fulton County, Atlanta, 33.749, -84.38798

Medium:

articles

Type:

Text

Format:

application/pdf

Description:

I discuss an upper bound on the boost and the energy of elementary particles. The limit is derived utilizing the core principle of relativistic quantum mechanics stating that there is a lower bound for localization of an elementary quantum system and the assumption that when the localization scale reaches the Planck length, elementary particles are removed from the S-matrix observables. The limits for the boost and energy, MPlanck/m and MPlanck C 2 ? 8.6 1027 eV,are defined in terms of fundamental constants and the mass of elementary particle and does not involve any dynamic scale. These bounds imply that the cosmic ray flux of any flavor may stretch up to energies of order 1028 GeV and will cut off around this value.

Metadata URL:

http://hdl.handle.net/20.500.12322/cau.ir:2016_japaridze_george

Original Collection:

arXiv.org (April 9, 2015). arXiv:1504.02176v2 [hep-ph] Accessed March 17, 2017.

Holding Institution:

Atlanta University Center Robert W. Woodruff Library

Rights:

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