Looking at Graviton Properties, as Either Classical or QM, in Nature, via Alicki-Van Ryn Experimental Realization

ABSTRACT

Recently, the author read the Alicki-Van Ryn test as to behavior of photons in a test of violations of classicality. The same thing is propoosed via use of a spin two graviton, using typical spin 2 matrices. While the technology currently does not exist to perform such an analysis yet, the same sort of thought experiment is proposed in a way to allow for a first principle test of the either classical or quantum foundations of gravity. The reason for the present manuscript topic is due to a specific argument presented in a prior document as to how~~h~~ is formed from semiclassical reasoning. We referred to a procedure as to how to use Maxwell’s equations involving a closed boundary regime, in the boundary re- gime between Octonionic Geometry and quantum flat space. Conceivably, a similar argument could be made forgravi- tons, pending further investigations. Also the anlysis of if gravitons are constructed by a similar semiclassical argument is pending if gravitons as by the Alicki-Van Ryn test result in semiclassical and matrix observable eigenvalue behavior. This paper also indirectly raises the question of if Baysian statistics would be the optimal way to differentiate between and matrix observable eigenvalue behavior for reasons brought up in the conclusion.

Recently, the author read the Alicki-Van Ryn test as to behavior of photons in a test of violations of classicality. The same thing is propoosed via use of a spin two graviton, using typical spin 2 matrices. While the technology currently does not exist to perform such an analysis yet, the same sort of thought experiment is proposed in a way to allow for a first principle test of the either classical or quantum foundations of gravity. The reason for the present manuscript topic is due to a specific argument presented in a prior document as to how

Cite this paper

A. Beckwith, "Looking at Graviton Properties, as Either Classical or QM, in Nature, via Alicki-Van Ryn Experimental Realization,"*Open Journal of Microphysics*, Vol. 2 No. 4, 2012, pp. 49-52. doi: 10.4236/ojm.2012.24007.

A. Beckwith, "Looking at Graviton Properties, as Either Classical or QM, in Nature, via Alicki-Van Ryn Experimental Realization,"

References

[1] G. Brida, et al., “Improved Implementation of the Alicki-Van Ryn Nonclassicality Test for a Single Particle Using SI Detectors,” Physical Review A, Vol. 79, No. 4, 2009. http://www.nist.gov/customcf/get_pdf.cfm?pub_id=900940

[2] “Spin Operators and Matrices,” 2012. http://www.easyspin.org/documentation/spinoperators.html

[3] A. Beckwith, “Is Quantum Mechanics Involved at the Start of Cosmological Evolution? Does a Machian Relationship between Gravitons and Gravitinos Answer This Question?” Hadronic Press, Palm Harbor, 2012. http://vixra.org/abs/1206.0023

[4] A. Beckwith, “Is There a Change in the Baryonic Structure Formation If Quark Strings and Domain Walls Exist at about the Electro-Weak Era?” 2012. http://vixra.org/abs/1207.0034

[5] U. Bruchholz, “Derivation of Planck’s Constant from Maxwell’s Electrodynamics,” Progress in Physics, Vol. 4, 2009, p. 67. http://www.ptep-online.com/index_files/2009/PP-19-07.PDF

[6] U. Bruzchholz, “Key Notes on a Geometric Theory of Fields,” Progress in Physics, Vol. 2, 2009, pp. 107-113.

[7] G.’t Hooft, “Determinism Beneath Quantum Mechanics,” 2002. http://arxiv.org/PS_cache/quant-ph/pdf/0212/0212095v1.pdf

[8] G.’t Hooft, “Quantum Mechanics and Determinism,” In: P. Frampton and J. Ng, Eds., Proceedings of the Eighth International Conference on Particles, Strings and Cosmology, Rinton Press, Princeton, 2001, pp. 275-285.

[9] L. Lyons, “Discovery or Fluke: Statistics in Particle Physics,” Physics Today, Vol. 65, No. 7, 2012, pp. 45-51.

[1] G. Brida, et al., “Improved Implementation of the Alicki-Van Ryn Nonclassicality Test for a Single Particle Using SI Detectors,” Physical Review A, Vol. 79, No. 4, 2009. http://www.nist.gov/customcf/get_pdf.cfm?pub_id=900940

[2] “Spin Operators and Matrices,” 2012. http://www.easyspin.org/documentation/spinoperators.html

[3] A. Beckwith, “Is Quantum Mechanics Involved at the Start of Cosmological Evolution? Does a Machian Relationship between Gravitons and Gravitinos Answer This Question?” Hadronic Press, Palm Harbor, 2012. http://vixra.org/abs/1206.0023

[4] A. Beckwith, “Is There a Change in the Baryonic Structure Formation If Quark Strings and Domain Walls Exist at about the Electro-Weak Era?” 2012. http://vixra.org/abs/1207.0034

[5] U. Bruchholz, “Derivation of Planck’s Constant from Maxwell’s Electrodynamics,” Progress in Physics, Vol. 4, 2009, p. 67. http://www.ptep-online.com/index_files/2009/PP-19-07.PDF

[6] U. Bruzchholz, “Key Notes on a Geometric Theory of Fields,” Progress in Physics, Vol. 2, 2009, pp. 107-113.

[7] G.’t Hooft, “Determinism Beneath Quantum Mechanics,” 2002. http://arxiv.org/PS_cache/quant-ph/pdf/0212/0212095v1.pdf

[8] G.’t Hooft, “Quantum Mechanics and Determinism,” In: P. Frampton and J. Ng, Eds., Proceedings of the Eighth International Conference on Particles, Strings and Cosmology, Rinton Press, Princeton, 2001, pp. 275-285.

[9] L. Lyons, “Discovery or Fluke: Statistics in Particle Physics,” Physics Today, Vol. 65, No. 7, 2012, pp. 45-51.