[General] A paradigm shifting – A new theory for the diffraction of light
Wolfgang Baer
wolf at nascentinc.com
Tue Jan 23 19:11:08 PST 2018
Mike:
Here is one response from the nature of light discussion group
I believe however this "EPERIMENT" is a simulation , which of course
encodes the theories assumed
I Could be wrong, perhaps John would clarify
Wolf
Dr. Wolfgang Baer
Research Director
Nascent Systems Inc.
tel/fax 831-659-3120/0432
E-mail wolf at NascentInc.com
On 1/22/2018 1:39 AM, Hodge John wrote:
> EXPERIMENT has falsified MET
> http://intellectualarchive.com/?link=item&id=1603
>
> Hodge
>
>
>
> On Sunday, January 21, 2018 3:23 PM, Wolfgang Baer
> <wolf at nascentinc.com> wrote:
>
>
> Chandra:
> This paper acknowledged you. It is a detailed application of
> alternative QM from Lande among others THat I've always been
> intrigued with.
> Lande's idea was that al forms of the uncertainty principle h/t= nE ,
> h/x=np define the probability of momentum and/or energy exchange based
> on the symmetry in the "t", "x" configuration of an electromagnetic
> particle. One Fourier transforms the particle, in this case the slit,
> and the probability of the energy exchange is proportional to the
> transform amplitudes of two particles individual waves
> What's most intriguing about this is that if we conceive of a
> background space in which EM particles are contained , and that
> containment is defined by Fourier plane waves that permeate the whole
> space then momentum exchanges can happen between particles at great
> distances, of course gravity and velocity would limit the matching of
> the waves to usually ;local pairs.
> Wolf
> Dr. Wolfgang Baer
> Research Director
> Nascent Systems Inc.
> tel/fax 831-659-3120/0432
> E-mailwolf at NascentInc.com <mailto:wolf at NascentInc.com>
> On 1/16/2018 2:05 PM, Mike Mobley wrote:
>
> Dear friends and colleagues,
> I want to engage you in the campaign to shift a scientific paradigm.
> Einstein once commented, “The significant problems we face cannot
> be solved at the same level of thinking we were at when we created
> them.” This speaks to the opportunity of a path less traveled.
> The wave nature of light has been a dominant paradigm for over two
> hundred years. In my recent publication in the journal, /Optical
> Engineering/: “Momentum Exchange Theory of Photon Diffraction,” I
> describe an alternative particle model for light that accounts for
> our observations of optical diffraction. Even those without a
> background in physics can appreciate the impact of this move away
> from traditional theories premised on a wave nature for light.
> This is a simple idea that will change our physics textbooks.
> I’ve included the abstract below. The complete paper can be
> accessed and downloaded for free at the journal website:
> http://dx.doi.org/10.1117/1.OE.57.1.015105
> <https://urldefense.proofpoint.com/v2/url?u=http-3A__dx.doi.org_10.1117_1.OE.57.1.015105&d=DwMFAA&c=h8tWSEopLyY-jufMqa6tqNiQLH-Hu55HVFAFe4cURDM&r=4sW4BtvqSfYNZdSetS0xqjha7gyaEmtiuIz_4TuIsK4&m=i_UDflK0UOQv0MXY6ox81wT6fV9CaQ-o7pHYaCwxkD8&s=ytNFJivmO6S1gyz21K48SMxFbA8Wy08y95XPvTsYIy0&e=>
> Please be encouraged to examine the paper, to ponder these ideas,
> and to share them with friends and colleagues.
> Grace and peace,
> Mike
> *Momentum Exchange Theory of Photon Diffraction*
> *Abstract*. “Momentum Exchange Theory”(MET) provides an
> alternative picture for optical diffraction based on a
> distribution of photon paths through momentum transfer
> probabilities determined at the scattering aperture. This is
> contrasted with classical optical wave theory that uses the
> Huygens-Fresnel principle and sums the phased contributions of
> wavelets at the point of detection. Single slit, multiple slit
> (Talbot effect) and straight edge diffraction provide significant
> clues to the geometric parameters controlling momentum transfer
> probabilities and the relation to Fresnel zone numbers. Momentum
> transfer is primarily dependent on preferred momentum states at
> the aperture and the specific location and distance for momentum
> exchange. Diffraction by an opaque disc provides insight to
> negative (attractive) dispersions. MET should simplify the
> analysis of a broadened set of aperture configurations and
> experimental conditions.
> */Michael J. Mobley, Ph.D./*
> */Executive Director/*
> Center for Integrated Science, Engineering and Technology
> Grand Canyon University
> 3300 W. Camelback Rd. Phoenix, AZ 85017
> Cell: 480 720 1860
> Email: mike.mobley at gcu.edu <mailto:mike.mobley at gcu.edu>
> CISET graphic
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