Results for "diffraction"

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    • Oliver Thewalt

      Expansion of the Universe or the imaginary photon - space boundary

      The universe is not expanding - the imaginary photon-space boundary is "expanding"     This is why we do not observe an anti-photon: there is no anti-photon for states in Existence   Let' s take an example: the current theory says this:   "Photons always move at th...

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      • Oliver Thewalt

        Diffraction - Feynman Lecture

        The resultant amplitude due to nn equal oscillators Diffraction #Feynman Lecture "No one has ever been able to define the difference between interference and diffraction satisfactorily." ~ Richard Feynman #Interference http://www.feynmanlectures.caltech.edu/I_30.html First Stars and Reinoniz...

        Tags: diffraction, interference, richard feynman, feynman lecture

        • Oliver Thewalt

          First Stars and Reinonization Era

          "Noone has ever been able to define the difference between interference and diffraction satisfactorily. It is just a question of usage, and there is no specific, important physical difference between them." ~Richard Feynman  In physics and chemistry, the Lyman seri...

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          • Oliver Thewalt

            Quantum Space locking for an intergalactic spin glass highway – a Beyond Silicon Photonics Model for Computing

            DRAFT, Preprint to be completed, 2. December 2017 by Oliver Thewalt      We enable “warp drive” for a reinterpretation of transport within space by addressing adiabatic (notion of preexistent states, unobservable universe,  Notes about Black Hole Cavity States &n...

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            • Oliver Thewalt

              Diffraction - Feynman Lecture

              Diffraction #Feynman Lecture "No one has ever been able to define the difference between interference and diffraction satisfactorily." ~ Richard Feynman #Interference http://www.feynmanlectures.caltech.edu/I_30.html First Stars and Reinonization Era http://hixgrid.de/file/view/66238/first-st...

              Tags: Diffraction, interference, Feynman Lecture