Quantum Physics

1303 Submissions

[6] viXra:1303.0174 [pdf] replaced on 2014-02-23 12:50:01

Linear Polarization, Graphical Representation

Authors: Kamal L Rajpal
Comments: 14 pages, 24 figures

No light passes through two crossed polarizers. However, if a third polarizer is inserted, at let’s say 45 degrees, in between the two crossed polarizers then, light does go through the three polarizers in series. This behavior can be explained with the help of a mathematical analysis. This paper explains it using a simple graphical approach. A graphical derivation of Malus Law is given and the EPR paradox has been made clear in a graphical manner.
Category: Quantum Physics

[5] viXra:1303.0156 [pdf] submitted on 2013-03-21 05:33:29

Information Exchange by Means of Separate Complex Photons

Authors: R.V. Klinkerman
Comments: 4 Pages.

In this paper we try to motivate the possibility of information transmission by means of individual complex photons. The characteristic features of the transfer, in particular, its large penetration and weak determination are considered. Assumptions are made about the approaches to experimental verification of the phenomenon Key words: photon, angular momentum, projection of the momentum, the wave function, information, quantum, spectrum.
Category: Quantum Physics

[4] viXra:1303.0138 [pdf] submitted on 2013-03-19 16:37:14

Extraordinary Optical Transmission as an Electromagnetic Phenomenon

Authors: Keith D. Foote
Comments: 3 Pages.

This thesis describes the phenomenon of Extraordinary Optical Transmission using an electromagnetic field paradigm.
Category: Quantum Physics

[3] viXra:1303.0118 [pdf] submitted on 2013-03-15 19:01:05

An Equation Similar to the Schroedinger Equation for the Atom with an Electron, Which Moves, from the Point of View of an Observer

Authors: Edigles Guedes
Comments: 7 pages, Portuguese.

When we conduct a thought experiment, in which the observer moves and can see the model for Schroedinger wave equation of atom with one electron, we create a wave function and calculate its wave eigenfunction acceptable, in spherical coordinates.
Category: Quantum Physics

[2] viXra:1303.0039 [pdf] replaced on 2013-05-11 14:40:00

Quantum Impedances, Entanglement, and State Reduction

Authors: Peter Cameron
Comments: 5 Pages. added a reference to a note on the black hole information paradox

The measurement problem, the mechanism of quantum state reduction, has remained an open question for nearly a century. The 'quantum weirdness' of the problem was highlighted by the introduction of the Einstein-Podolsky-Rosen paradox in 1935. Motivated by Bell's Theorem, nonlocality was first experimentally observed in 1972 by Clauser and Freedman in the entangled states of an EPR experiment, and is now an accepted fact. Special relativity requires that no energy is transferred in the nonlocal collapse of these entangled two-body wavefunctions, that no work is done, no information communicated. In the family of quantum impedances those which are scale invariant, the Lorentz and centrifugal impedances, satisfy this requirement. This letter explores their role in the collapse of the wave function
Category: Quantum Physics

[1] viXra:1303.0034 [pdf] replaced on 2014-02-26 16:17:54

'Neutrons ‘Are Not’ Fundamental Particles'

Authors: Keith D. Foote
Comments: 8 Pages. V3-typo corrections

This thesis proposes neutrons have been accidentally labeled as fundamental particles and provides arguments supporting the position neutrons are protons with an electron in an inner orbit and are neither permanent, nor fundamental.
Category: Quantum Physics