Reinterpretation of Electric Field with Quantum Fluctuations: The Mechanism of Electrostatic Force of Attraction and Repulsion Between Two Point Charges
Article Sidebar
Published
Nov 21, 2020
Page:
28-33
Main Article Content
C. G. Sim
Department of Computer Applied Mechanical Engineering, University of Chungbuk Health & Science, Cheong Ju 28150, South Korea.
Abstract
Vacuum polarization rearranges virtual pairs. This causes the virtual pairs to rigidify in vacuum, reducing the quantum fluctuation energy. The quantum fluctuation energy is a fundamental force of vacuum, as evidenced by the Casimir effect. The change in quantum fluctuation energy was simulated in the superposition of the electric fields. The results show that the increase and decrease of the quantum fluctuation energy between the two point charges is related to the repulsive force and attraction in Coulomb's law.
Keywords:
Electrostatic force, electric field, quantum fluctuation, vacuum polarization, annihilation, creation, Casimir.
Article Details
How to Cite
Sim, C. G. (2020). Reinterpretation of Electric Field with Quantum Fluctuations: The Mechanism of Electrostatic Force of Attraction and Repulsion Between Two Point Charges. Physical Science International Journal, 24(9), 28-33. https://doi.org/10.9734/psij/2020/v24i930214
Section
Original Research Article
References
Einstein A, Annalen der Physik. 1916; 354(7):769.
Peskin M, Schroeder D. Westview Press; 1995.
Weinberg S. Cambridge University Press; 2002.
Dirac PAM, Proc. R. Soc. Lond. A. 1930; 126(801):360–365.
Joseph S. Cambridge University Press. 2005;62.
Peskin M, Schroeder D. Westview Press; 1995.
Negin AK, Reza M. Physics Letters A. 2020;384(14):126269.
Steve K Lamoreaux. Nature. 2009; 457(7226):156-7
Browne MW. The New York Times. Retrieved 2010-05-22.
Peskin ME, Schroeder DV. Westview Press. 1995;80.
Genet C, Lambrecht A, Reynaud S. Available:arXiv:quant-ph/0210173
Chen SG. Il nuovo cimento. 1989; 104:6.
Mageshwaran M, Sorli A, Fiscaletti D. American Journal of Modern Physics. 2016; 5:4-1.
Tesla’s dynamic theory of gravity. The Millennium Report; 2016.
William JH, Ralph RB von F, Afif HS. Gravity and magnetic exploration: Principles, practices, and applications; Cambridge University Press; 2013.
Wikipedia, Feynman diagram.
Accessed 24 October 2020.
Available:https://en.wikipedia.org/wiki/Feynman_diagram
David K. American Scientist. 2005;93(2): 156.
ARE special research centre for the subatomic structure of matter.
Accessed 4 July 2020.
Available:http://www.physics.adelaide.edu.au/cssm/research/lattice.html
Biddle J, Charvetto J, Kamleh W, Leinweber D, Piercy H, Puckridge E, Stokes F, Young RD, Zanotti J. The 36th Annual International Symposium on Lattice Field Theory – LATTICE. 2018;22-28.
Ball P. Nature; 2014.
Peskin M, Schroeder D. Westview Press; 1995.
Weinberg S. Cambridge University Press; 2002.
Dirac PAM, Proc. R. Soc. Lond. A. 1930; 126(801):360–365.
Joseph S. Cambridge University Press. 2005;62.
Peskin M, Schroeder D. Westview Press; 1995.
Negin AK, Reza M. Physics Letters A. 2020;384(14):126269.
Steve K Lamoreaux. Nature. 2009; 457(7226):156-7
Browne MW. The New York Times. Retrieved 2010-05-22.
Peskin ME, Schroeder DV. Westview Press. 1995;80.
Genet C, Lambrecht A, Reynaud S. Available:arXiv:quant-ph/0210173
Chen SG. Il nuovo cimento. 1989; 104:6.
Mageshwaran M, Sorli A, Fiscaletti D. American Journal of Modern Physics. 2016; 5:4-1.
Tesla’s dynamic theory of gravity. The Millennium Report; 2016.
William JH, Ralph RB von F, Afif HS. Gravity and magnetic exploration: Principles, practices, and applications; Cambridge University Press; 2013.
Wikipedia, Feynman diagram.
Accessed 24 October 2020.
Available:https://en.wikipedia.org/wiki/Feynman_diagram
David K. American Scientist. 2005;93(2): 156.
ARE special research centre for the subatomic structure of matter.
Accessed 4 July 2020.
Available:http://www.physics.adelaide.edu.au/cssm/research/lattice.html
Biddle J, Charvetto J, Kamleh W, Leinweber D, Piercy H, Puckridge E, Stokes F, Young RD, Zanotti J. The 36th Annual International Symposium on Lattice Field Theory – LATTICE. 2018;22-28.
Ball P. Nature; 2014.