Inflections of Periodicities of Background Photon Spectral Power Densities Are Predicted by the Lorentz Contraction for a Potential Indicator for the Intrinsic Structure of Space

@article{Persinger2016InflectionsOP,
  title={Inflections of Periodicities of Background Photon Spectral Power Densities Are Predicted by the Lorentz Contraction for a Potential Indicator for the Intrinsic Structure of Space},
  author={Michael A. Persinger},
  journal={Journal of Advances in Physics},
  year={2016},
  volume={11},
  pages={4014-4017}
}
  • M. Persinger
  • Published 30 July 2016
  • Physics
  • Journal of Advances in Physics
                The value for the Lorentz contraction to produce a discrepancy for a hypothetical number that reflects a property (21.3I€4) of sub-matter space was calculated. When applied to time the contraction would be ~35 min. The difference in mass-equivalent energy for an electron at c (the velocity of light in a vacuum) and the required v was ~2 ·10-20 J which has emerged as a significant quantity that may permeate from the force at Planck’s Length when applied across the… 

Figures from this paper

References

SHOWING 1-10 OF 17 REFERENCES
Potential Role of the Entanglement Velocity of 10 23 m·s -1 To Accommodate Recent Measurements of Large Scale Structures of the Universe
The aggregate of m 7 ·s -1 from the product of the four geometric terms for increasing dimensions of a closed path (a circle) when set equal to the optimal combinations of the gravitational constant
Thixotropic Phenomena in Water: Quantitative Indicators of Casimir-Magnetic Transformations from Vacuum Oscillations (Virtual Particles)
TLDR
Theoretical and experimental results indicate that components of thixotropy, such as specific domains of intercalated water molecules, could display excess correlations over very large distances because the energies of the universal quantity and water converge it may be a special conduit for discrete transformations from virtual to real states.
Dimensional Analyses of Geometric Products and the Boundary Conditions of the Universe: Implications for a Quantitative Value for the Latency to Display Entanglement
We explored the dimensional equivalence of the product of the plane, area, and volume of a circle as well as frequency (2πrf), or 21.3 π 4 r 7 f, when applied to universal boundaries. When this
Improved determination of G using two methods.
TLDR
The apparatus has been completely rebuilt and extensive tests carried out on the key parameters needed to produce a new value for G, which confirms the discrepancy of the results with the CODATA value and highlights the wide divergence that now exists in recent values of G.
Photon emission from melanoma cells during brief stimulation by patterned magnetic fields: is the source coupled to rotational diffusion within the membrane?
TLDR
There may be a type of "cellular" magnetic moment that, when stimulated by intensity-tuned magnetic fields, results in photon emissions whose peak frequencies reflect predicted energies for fundamental orbital/spin properties of the electron and atomic aggregates with large principal quantum numbers.
Four Years of Daily Photon Emissions That Have Predicted Major Earthquakes: Raw Data, Spectral Power Density Analyses and Implications for the Geosciences
The daily median ground surface flux densities per day from a continuously operating photomultiplier tube unit for four years in Sudbury, Ontario are presented for December 2010 to December 2014.
Identical particle model on biophoton emission
Biophoton emission (PE) method is a non-invasive way revealing biophysical interactions in living tissues. Since its mechanism is not very clear, its acceptance is limited. Gu has presented the
Comparison of Hilbert transform and wavelet methods for the analysis of neuronal synchrony
Shifting wavelengths of ultraweak photon emissions from dying melanoma cells: their chemical enhancement and blocking are predicted by Cosic’s theory of resonant recognition model for macromolecules
TLDR
The greater-than-expected photon counts compared with raw measures through the various filters, which also function as reflective material to other photons, suggest that photons of different wavelengths might be self-stimulatory and could play a significant role in cell-to-cell communication.
The Dicke model in quantum optics: Dicke model revisited
  • B. Garraway
  • Physics
    Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences
  • 2011
A short review of recent developments of the Dicke model in quantum optics is presented. The focus is on the model in a cavity at zero temperature and in the rotating wave approximation. Topics
...
1
2
...