Non-Gaussian Photon Probability DIstribution
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Ben Solomon (bts)
Oct 20, 2009, 10:50:36 AM10/20/09
to Gravity Modification
Dear Friends,
In my earlier work I had shown that just maybe that there exists
Internal Structure Independence, that the gravitational effect is
independent of the nature or structure of an elementary particle.
This last year I have taken a temporary detour to investigate this
with respect to the photon's probability distribution, and am glad to
announce that my paper "Non-Gaussian Photon Probability Distribution"
has been accepted by the American Institute of Physics conference
Space, Propulsion & Energy Sciences, International Forum (SPESIF) 2010
to be held at John Hopkins in late February 2010.
The abstract is provided below, and a copy of the paper will be posted
to my iSETI (http://www.iSETI.us/) website when everything is
finalized.
For those of you who have been following my work for sometime, will
recognize that my work is heavily based on experimental data.
Therefore, I do expect this paper to substantially increase the rate
of change of other scientific discoveries and the development of the
technologies of tomorrow.
The very best to all of you.
Ben
--------------------------------------------------------------------------------------------------------------------------------------------------
Abstract for Non-Gaussian Photon Probability Distribution:
This paper investigates the axiom that the photon’s probability
distribution is a Gaussian distribution. The Airy disc empirical
evidence shows that the best fit, if not exact, distribution is a
modified Gamma mΓ distribution (whose parameters are α = r, β = r/√u)
in the plane orthogonal to the motion of the photon. This modified
Gamma distribution is then used to reconstruct the probability
distributions along the hypotenuse from the pinhole, arc from the
pinhole, and a line parallel to photon motion. This reconstruction
shows that the photon’s probability distribution is not a Gaussian
function. However, under certain conditions, the distribution can
appear to be Normal, thereby accounting for the success of quantum
mechanics. This modified Gamma distribution changes with the shape of
objects around it and thus explains how the observer alters the
observation. This property therefore places additional constraints to
quantum entanglement experiments. This paper shows that photon
interaction is a multi-phenomena effect consisting of the probability
to interact Pi, the probabilistic function and the ability to interact
Ai, the electromagnetic function. Splitting the probability function
Pi from the electromagnetic function Ai enables the investigation of
the photon behavior from a purely probabilistic Pi perspective. The
Probabilistic Interaction Hypothesis is proposed as a consistent
method for handling the two different phenomena, the probability
function Pi and the ability to interact Ai, thus redefining radiation
shielding, stealth or cloaking, and invisibility as different effects
of a single phenomenon Pi of the photon probability distribution. Sub
wavelength photon behavior is successfully modeled as a multi-
phenomena behavior. The Probabilistic Interaction Hypothesis provides
a good fit to Otoshi’s (1972) microwave shielding, Schurig et al.
(2006) microwave cloaking, and Oulton et al. (2008) sub wavelength
confinement; thereby providing a strong case that the photon
probability distribution is a modified Gamma mΓ distribution and not a
Gaussian distribution.
Keywords: Photon Probability, Sub Wavelength, Quantum Entanglement,
Shielding, Cloaking, Invisibility, Stealth
PACS: 14.70.Bh, 32.80.Rm, 33.20.Bx, 42.50.Ct, 78.70.-g)
--------------------------------------------------------------------------------------------------------------------------------------------------
For those who did not get the correct Greek nomenclature please refer
to:
http://iseti.wordpress.com/2009/10/19/non-gaussian-photon-probability-distribution/
In my earlier work I had shown that just maybe that there exists
Internal Structure Independence, that the gravitational effect is
independent of the nature or structure of an elementary particle.
This last year I have taken a temporary detour to investigate this
with respect to the photon's probability distribution, and am glad to
announce that my paper "Non-Gaussian Photon Probability Distribution"
has been accepted by the American Institute of Physics conference
Space, Propulsion & Energy Sciences, International Forum (SPESIF) 2010
to be held at John Hopkins in late February 2010.
The abstract is provided below, and a copy of the paper will be posted
to my iSETI (http://www.iSETI.us/) website when everything is
finalized.
For those of you who have been following my work for sometime, will
recognize that my work is heavily based on experimental data.
Therefore, I do expect this paper to substantially increase the rate
of change of other scientific discoveries and the development of the
technologies of tomorrow.
The very best to all of you.
Ben
--------------------------------------------------------------------------------------------------------------------------------------------------
Abstract for Non-Gaussian Photon Probability Distribution:
This paper investigates the axiom that the photon’s probability
distribution is a Gaussian distribution. The Airy disc empirical
evidence shows that the best fit, if not exact, distribution is a
modified Gamma mΓ distribution (whose parameters are α = r, β = r/√u)
in the plane orthogonal to the motion of the photon. This modified
Gamma distribution is then used to reconstruct the probability
distributions along the hypotenuse from the pinhole, arc from the
pinhole, and a line parallel to photon motion. This reconstruction
shows that the photon’s probability distribution is not a Gaussian
function. However, under certain conditions, the distribution can
appear to be Normal, thereby accounting for the success of quantum
mechanics. This modified Gamma distribution changes with the shape of
objects around it and thus explains how the observer alters the
observation. This property therefore places additional constraints to
quantum entanglement experiments. This paper shows that photon
interaction is a multi-phenomena effect consisting of the probability
to interact Pi, the probabilistic function and the ability to interact
Ai, the electromagnetic function. Splitting the probability function
Pi from the electromagnetic function Ai enables the investigation of
the photon behavior from a purely probabilistic Pi perspective. The
Probabilistic Interaction Hypothesis is proposed as a consistent
method for handling the two different phenomena, the probability
function Pi and the ability to interact Ai, thus redefining radiation
shielding, stealth or cloaking, and invisibility as different effects
of a single phenomenon Pi of the photon probability distribution. Sub
wavelength photon behavior is successfully modeled as a multi-
phenomena behavior. The Probabilistic Interaction Hypothesis provides
a good fit to Otoshi’s (1972) microwave shielding, Schurig et al.
(2006) microwave cloaking, and Oulton et al. (2008) sub wavelength
confinement; thereby providing a strong case that the photon
probability distribution is a modified Gamma mΓ distribution and not a
Gaussian distribution.
Keywords: Photon Probability, Sub Wavelength, Quantum Entanglement,
Shielding, Cloaking, Invisibility, Stealth
PACS: 14.70.Bh, 32.80.Rm, 33.20.Bx, 42.50.Ct, 78.70.-g)
--------------------------------------------------------------------------------------------------------------------------------------------------
For those who did not get the correct Greek nomenclature please refer
to:
http://iseti.wordpress.com/2009/10/19/non-gaussian-photon-probability-distribution/
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