%0 Journal Article %T Looking at Graviton Properties, as Either Classical or QM, in Nature, via Alicki-Van Ryn Experimental Realization %A Andrew Beckwith %J Open Journal of Microphysics %P 49-52 %@ 2162-2469 %D 2012 %I Scientific Research Publishing %R 10.4236/ojm.2012.24007 %X 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 $\hat{A}\"$ and $\hat{B}\"$ matrix observable eigenvalue behavior. This paper also indirectly raises the question of if Baysian statistics would be the optimal way to differentiate between $\hat{A}\"$ and $\hat{B}\"$ matrix observable eigenvalue behavior for reasons brought up in the conclusion. %K Planck’s Constant %K Octonionic Geometry %K Quantum Mechanics %K Alicki-Van Ryn Test %U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=24810