[5] viXra:1001.0045 [pdf] submitted on 28 Jan 2010
Authors: Constantinos Ragazas
Comments: 3 pages
In this short note we mathematically derive Planck's Formula for blackbody radiation in
Quantum Physics. This derivation shows that under certain plausible assumptions Planck's
Formula is an exact mathematical identity that describes the interaction of energy.
Furthermore, these assumptions are well justified by mathematical derivations and
established physical principles.
Category: Quantum Physics
[4] viXra:1001.0033 [pdf] submitted on 23 Jan 2010
Authors: Constantinos Ragazas
Comments: 2 pages
A plausible non-Quantum Mechanical explanation to the double-slit experiment is considered. This
is based on the view that globally energy propagates continuously as a wave while locally energy is
manifested (measured or observed) in discrete units. The 1989 Tonomura 'single electron emissions'
double-slit experiment is used as a backdrop to this discussion.
Category: Quantum Physics
[3] viXra:1001.0023 [pdf] submitted on 21 Jan 2010
Authors: Dainis Zeps
Comments: 8 pages
Quantum mechanics may loose its weirdness if systematically geometric algebra methods would be
used more. Crucial aspect is to find laws of quantum mechanics be present in macroworld in form of
description of motions rather than objects. To help to reach this goal we suggest to use double rotation
as one of base invariants in quantum mechanics. We suggest to consider geometric algebra as algebra of
motion and double rotation specifically.
Category: Quantum Physics
[2] viXra:1001.0022 [pdf] replaced on 23 Feb 2010
Authors: Giuliano Bettini, Alberto Bicci
Comments: 18 pages, slightly amended.
Ideas about the electron as a sort of a bound electromagnetic wave and/or the electron
as electromagnetic field trapped in (equivalent) waveguide can be found more or less
explicitly in many papers, for example by Zhi-Yong Wang, Roald Ekholdt, David
Hestenes, V.A.Induchoodan Menon, J. G. Williamson, M. B. van der Mark.
What we want to show here is that the Dirac equation for electron and positron plane
waves admits an equivalent electrical circuit, consisting of an equivalent transmission
line.
The same transmission line is representative of a mode in waveguide, so you can also
say that the Dirac equation for plane waves includes an implicit representation in
terms of an equivalent waveguide.
All the calculation will be done in elementary form, with the usual notations of circuit
theory and electromagnetism, without the need to resort to Clifford algebra as in
previous papers.
Category: Quantum Physics
[1] viXra:1001.0008 [pdf] replaced on 9 Jan 2010
Authors: V.A.Induchoodan Menon
Comments: 13 Pages.
The author shows that that just as the mass and the spin, the electric
charge of the electron also could be attributed to its standing helical
(electromagnetic) half wave structure [1]. It turns out that the fine structure
constant is the ratio of the electromagnetic field energy of the electron to its total
energy. The magnetic dipole moment of the electron also emerges in a simple
manner from the standing helical half wave structure. This structure rules out the
existence of the magnetic monopole. The standing helical half wave structure
also allows two states which would not possess any charge while having spin of
?h. The author suggests that they could very well represent the neutrino and the
anti-neutrino.
Category: Quantum Physics