Quantum Physics

1302 Submissions

[10] viXra:1302.0149 [pdf] replaced on 2013-03-04 16:20:04

Hilbert Logic

Authors: J.A.J. van Leunen
Comments: 6 Pages.

Early in the twentieth century a suitable foundation of quantum physics was found in traditional quantum logic. This idea exploits the lattice isomorphism between the set of propositions of a quantum logic system and the set of closed subspaces of an infinite dimensional separable Hilbert space. Later Constantin Piron restricted the choice for the number systems that can be used for specifying the inner product of the Hilbert space to members of a division ring. A slight refinement of the quantum logic system extends the lattice isomorphism to a topological isomorphism. This new logic system will be called Hilbert logic and it has a striking resemblance with a separable Hilbert space. The paper also provides insight in how fields can be interpreted.
Category: Quantum Physics

[9] viXra:1302.0125 [pdf] replaced on 2013-09-05 09:33:28

The Hilbert Book Model Slides part 1

Authors: J.A.J. van Leunen
Comments: 31 Pages.

This is the first part of a slide presentation on the hierarchy of objects in the Hilbert Book Model. The HBM is strictly based on quantum logic. It uses a sequence of these logic systems in order to create a dynamic model. In order to establish coherence between the members of the sequence a correlation vehicle is used that maps the atomic propositions onto the base vectors of a Hilbert space. This leads to unprecedented insight in the undercrofts of physics.
Category: Quantum Physics

[8] viXra:1302.0122 [pdf] replaced on 2013-09-05 09:41:17

Logic Systems Slides

Authors: J.A.J. van Leunen
Comments: 12 Pages.

This is part of a slide presentation. It treats logic systems that relate to the foundation of physics. Classical logic is well known. Traditional quantum logic has a weaker structure and is often assigned as the base of quantum physics. Hilbert logic restricts quantum logic, such that it fits better with Hilbert spaces.
Category: Quantum Physics

[7] viXra:1302.0121 [pdf] replaced on 2013-09-05 09:35:45

The Hilbert Book Slides part 2

Authors: J.A.J. van Leunen
Comments: 19 Pages.

This is the second part of a slide presentation on the hierarchy of objects in the Hilbert Book Model. The HBM is strictly based on quantum logic. It uses a sequence of these logic systems in order to create a dynamic model. In order to establish coherence between the members of the sequence a correlation vehicle is used that maps the atomic propositions onto the base vectors of a Hilbert space. This leads to unprecedented insight in the undercrofts of physics.
Category: Quantum Physics

[6] viXra:1302.0116 [pdf] submitted on 2013-02-17 09:05:56

Plasmonics per the Ultra-Space Field Theory

Authors: Keith D. Foote
Comments: 10 Pages.

This thesis describes plasmonics using the Ultra-Space Field Theory. It describes plasmonics as part of a material’s electromagnetic field.
Category: Quantum Physics

[5] viXra:1302.0091 [pdf] replaced on 2013-02-26 18:38:50

On Dialectics of Physical Systems, Schrodinger Equation and Collapse of the Wave Function: Critical Behaviour for Quantum Computing

Authors: Armando V.D.B. Assis
Comments: 33 pages. English. This v3 is to be the final version.

This paper is intended to show the Schrodinger equation, within its structure, allows the manifestation of the wave function collapse within a very natural way of reasoning. In fact, as we will see, nothing new must be inserted to the classical quantum mechanics, viz., only the dialectics of the physical world must be interpreted under a correct manner. We know the nature of a physical system turns out to be quantical or classical, and, once under the validity of the Schrodinger equation to provide the evolution of this physical system, the dialectics, quantum or classical, mutually exclusive, must also be under context through the Schrodinger equation, issues within the main scope of this paper. We will show a classical measure, the obtention of a classical result, emerges from the structure of the Schrodinger equation, once one demands the possibility that, over a chronological domain, the system begins to provide a classical dialectic, showing the collapse may be understood from both: the structure of the Schrodinger equation as well as from the general solution to this equation. The general solution, even with a dialectical change of description, leads to the conservation of probability, obeying the Schrodinger equation. These issues will turn out to be a consequence of a general potential energy operator, obtained in this paper, including the possibility of the classical description of the physical system, including the possibility of interpretation of the collapse of the quantum mechanical state vector within the Schrodinger equation scope.
Category: Quantum Physics

[4] viXra:1302.0074 [pdf] submitted on 2013-02-12 11:08:33

A Short Presentation on the Quantum Model

Authors: Andrew Nassif
Comments: 7 Pages. small presentation

The Quantum model is the location of where an electron is most probably located. This idea provides a conception that an electron moves within the wavelengths of the area that it is located. Schrodinger's equation represented the different possibilities of where an electron is located through variations of wavelengths. However, it was Heisenberg that made the discovery of the Quantum mechanical model using his principle/
Category: Quantum Physics

[3] viXra:1302.0054 [pdf] replaced on 2013-11-02 10:08:02

The Wave Medium, the Electron, and the Proton - Part 1

Authors: Gary D. Simpson
Comments: 10 Pages.

A geometric argument is presented that the true ratio between the rest mass of the proton and the rest mass of the electron is 6π5. The deviation of the measured value for this ratio from 6π5 is interpreted to be a relativistic mass correction due to movement through, for lack of a better term, the aether. This aether is a scalar field and consists of electrons in a true rest frame. Based upon the Lorentz Transformation, the velocity of the Earth associated with this motion through the aether is 0.006136 c. This allows for a unification of Special Relativity with Quantum Mechanics. The necessary condition for this unification is that the Lorentz Transform of the observer with respect to the aether must be considered. The hypothesis described herein can be supported or disproved by using an observer in a frame of reference at a velocity significantly different than that of the Earth. The hypothesis presented herein can also be supported or disproved by re-analysis of existing particle accelerator data and by examination of cosmological data.
Category: Quantum Physics

[2] viXra:1302.0037 [pdf] replaced on 2013-05-24 22:53:53

Quantum Structure

Authors: Jonathan Tooker
Comments: 5 Pages. 5 color figures, corrected typos, minor edits

The logical structure of the standard model is isomorphic to the geometric structure of the modified cosmological model (MCM). We introduce a new particle representation scheme and show that it is invariant under CPT. In this representation spin arises as an ordinary physical process. The final character of the Higgs boson is predicted. Wavefunction collapse, the symmetry (anti-symmetry) of the wavefunction and some recent experimental results are discussed.
Category: Quantum Physics

[1] viXra:1302.0008 [pdf] submitted on 2013-02-01 20:55:08

Octonion Electrodynamics in Isotropic and Chiral Medium

Authors: B. C. Chanyal, P. S. Bisht, Tianjin Li, O. P. S. Negi
Comments: 13 Pages.

Starting with the Dirac-Maxwell’s equations in presence of electric and magnetic sources in an isotropic medium of dyons, we have derived the generalized octonion Maxwell’s equations in isotropic medium. And the octonion formulation of generalized electromagnetic fields in chiral medium has also been developed in compect, simple and consistent manner.
Category: Quantum Physics