Annual Fluctuations (~10-12 W•m-2) in Ground Level Photon Power Densities: Quantitative Evidence for Possible Modulation From the Galactic Center
International Journal of Astrophysics and Space Science
Volume 3, Issue 5, October 2015, Pages: 70-73
Received: Jul. 28, 2015;
Accepted: Aug. 17, 2015;
Published: Aug. 29, 2015
Views 3725 Downloads 71
Michael A. Persinger, Quantum Molecular Biology Laboratory, Laurentian University, Sudbury, Ontario, Canada
Follow on us
The numbers of photons per second for more than a year (2013-2014) recorded every ~2.5 s by a digital photomultiplier unit was maximum during August to October and minimum during February through April. The peak-to-peak difference in quantity for the classical, smooth variation was 2.4 x 10-12 W m-2. This value is within the order of magnitude for a photon source from the galactic center with a power of 1059 J from a spherical surface with a radius defined for a singularity that could be equivalent to the galactic mass. The calculated change in photon flux density from such a source for the annual change in the earth’s distance around the sun relative to the distance to galactic center was ~10-21 W m-2 or equivalent to 10 Solar Flux Units (SFU). Data obtained for daily SFU for the years 2009 through 2013 indicated that an average difference was 8 to 10 SFU higher for September-October when the earth would be closer to the galactic center than March-April. The most likely source of the amplitude of the annual variation is consistent with modification by the earth’s position in the solar mass field with respect to the galactic center. These data suggest that at least a subset set of background photon emissions on the earth’s surface display a clear annual variation whose source could originate from a singularity at the distance of the center of the Milky Way.
Photon Flux Density, Annual Variation, Galactic Center, Singularity
To cite this article
Michael A. Persinger,
Annual Fluctuations (~10-12 W•m-2) in Ground Level Photon Power Densities: Quantitative Evidence for Possible Modulation From the Galactic Center, International Journal of Astrophysics and Space Science.
Vol. 3, No. 5,
2015, pp. 70-73.
M. A. Persinger, Open Astron. J. 5, 41 (2012a).
M. A. Persinger, Int. J. Astron. Astrophys. 2, 125 (2012b).
M. A. Persinger, Int. J. Geosci. 3, 192 (2012c).
M. A. Persinger, G. F. Lafrenie and B. T. Dotta, Int. J. Geosci. 3, 627 (2012).
B. T. Dotta, C. A. Buckner, D. Cameron, R. F. Lafrenie and M. A. Persinger, Gen. Physiol. Biophys. 30, 301 (2011).
A. Neronov and I. Vovk, Science 328, 73 (2010).
M. Opher, F. A. Bibi, G. Toth and J. D. Richardson, Nature 462, 1036 (2009).
B. T. Dotta and M. A. Persinger, J. Biophys. Chem. 3, 72 (2012).
F. Martins, S. Gillessen, F. Eisenhauer, R. Genzel, T. Ott and S. Trippe, Astrophys. J. 672, L119 (2008).
S. Gillessen, F. Eisenhauer, S. Trippe, T. Alexander, R Genzel, F. Martins and T. Ott, Astrophy. J. 692, 1075 (2009).