Quantum Physics

1304 Submissions

[7] viXra:1304.0168 [pdf] submitted on 2013-04-30 09:37:32

Universal Quantum Computing; 3rd Gen Prototyping Utilizing Relativistic ‘Trivector’ R-Qubit Modeling Surmounting Uncertainty

Authors: Richard L. Amoroso, L.H. Kauffman, S. Giandinoto
Comments: 10 Pages.

We postulate bulk universal quantum computing (QC) cannot be achieved without surmounting the quantum uncertainty principle, an inherent barrier by empirical definition in the regime described by the Copenhagen interpretation of quantum theory - the last remaining hurdle to bulk QC. To surmount uncertainty with probability 1, we redefine the basis for the qubit utilizing a unique form of M-Theoretic Calabi-Yau mirror symmetry cast in an LSXD Dirac covariant polarized vacuum with an inherent ‘Feynman synchronization backbone’. This also incorporates a relativistic qubit (r-qubit) providing additional degrees of freedom beyond the traditional Block 2-sphere qubit bringing the r-qubit into correspondence with our version of Relativistic Topological Quantum Field Theory (RTQFT). We present a 3rd generation prototype design for simplifying bulk QC implementation.
Category: Quantum Physics

[6] viXra:1304.0154 [pdf] submitted on 2013-04-27 10:47:49

Watching the Clock: Quantum Rotation and Relative Time

Authors: Alan M. Kadin
Comments: 12 Pages. Submitted to Foundational Questions Inst. Essay Contest, April 14, 2013, http://fqxi.org/community/forum/topic/1601

A consistent theory of nature must account for both microscopic quantum waves and macroscopic relativistic particle trajectories. In the recent "New Quantum Paradigm", locally realistic rotating vector fields comprise fundamental particles with spin. These same coherent quantum rotators constitute local clocks that define local time, in a way that agrees with general relativity to first order, but provides surprising new insights (e.g., no black holes). This paradigm avoids conventional paradoxes of quantum indeterminacy and entanglement. All information on quantum systems follows directly from the dynamics of real fields in real space; no further information is obtained by reference to abstract quantum Hilbert space. This simple but unconventional picture provides a consistent unified foundation for all of modern physics.
Category: Quantum Physics

[5] viXra:1304.0103 [pdf] replaced on 2013-04-22 02:59:24

Electron Wave Function 3D Model

Authors: Declan Traill
Comments: 160 Pages. Much of the content of this paper is source code listing from the models.

All of Electromagnetics can be explained in terms of a field of vectors called the Hertzian vector field. This paper shows the resulting images & source code from my two approaches to modelling an Electron using the equations that can be derived from this Hertzian Vector field. (1) a finite element 3D vector model (2) an analytical model.
Category: Quantum Physics

[4] viXra:1304.0081 [pdf] replaced on 2015-12-15 12:18:44

Derivation of the Pauli Exclusion Principle and Meaning Simplification of the Dirac Theory of the Hydrogen Atom

Authors: Sylwester Kornowski
Comments: 9 Pages.

In general, the Pauli Exclusion Principle follows from the spectroscopy whereas its origin is not good understood. To understand fully this principle, most important is the origin of quantization of the azimuthal quantum number i.e. of the angular momentum quantum number. Here, applying the theory of ellipse and starting from very simple physical condition, we quantized the azimuthal quantum number. The presented model leads directly to the eigenvalue of the square of angular momentum and to the additional potential energy that appears in the equation for the modified wave function. We formulated also a very simple semiclassical analog to the Dirac and Sommerfeld theories of the hydrogen atom. The constancy of the base of the natural logarithm for the quantum fields is the reason that the three theories are equivalent.
Category: Quantum Physics

[3] viXra:1304.0043 [pdf] replaced on 2015-12-15 07:14:14

Quantum Physics in the Lacking Part of Ultimate Theory

Authors: Sylwester Kornowski
Comments: 6 Pages.

Here within the lacking part of ultimate theory, i.e. the Scale-Symmetric Theory, we derived the fundamental equation of the Matrix Quantum Mechanics i.e. the commutator. It follows from the phase transitions of the non-gravitating Higgs field (of the inflation field) that are based on the half-integral-spin constancy. The fundamental equation results from the quantum entanglement that leads to the infinitesimal transformations. In reality, the Matrix Quantum Mechanics that describes excited states of fields (i.e. the quantum particles) is timeless and non-local i.e. non-deterministic. But the Matrix Quantum Mechanics leads to the time-dependent, so deterministic, wave functions that are characteristic for the Statistical Quantum Mechanics. It is the reason why the wave functions appear in the equations of motion. The Statistical Quantum Mechanics or the Quantum Theory of Fields, are the semiclassical/semi-quantum theories. The presented here extended Matrix Quantum Mechanics leads to the methods applied in the Quantum Theory of Fields but there appear some limitations. The idea of existence of many separated parallel worlds is incorrect.
Category: Quantum Physics

[2] viXra:1304.0026 [pdf] submitted on 2013-04-05 08:27:16

Avoiding an Imaginary Connection in the Dirac Equation

Authors: Leonardo Pedro
Comments: 4 Pages.

In a Majorana basis, the Dirac equation for a free spin one-half particle is a 4x4 real matrix differential equation. When including the effects of the electromagnetic interaction, the Dirac equation is a complex equation due to the presence of an imaginary connection in the covariant derivative, related with the phase of the spinor. In this paper we study the solutions of the Dirac equation with the null and Coulomb potentials and notice that there is a real matrix that squares to -1, relating the imaginary and real components of these solutions. We show that these solutions can be obtained from the solutions of two non-linear 4x4 real matrix differential equations with a real matrix as the connection of the covariant derivative.
Category: Quantum Physics

[1] viXra:1304.0005 [pdf] replaced on 2013-04-05 07:29:33

Solar Cell Wave Guide

Authors: Keith D. Foote
Comments: 4 Pages.

The solar cell wave guide takes advantage of a recent discovery called extraordinary optical transmission1. The solar cell wave guide is an undeveloped concept needing research and development. It is not (to the best of my knowledge)patented, and this paper makes the concept patent free. The solar cell wave guide focuses on maximizing the absorption of quanta from the infrared spectrum. Three potential uses are: the use of firelight to charge smart phones, powering equipment on a planet like Venus, maximizing the heating of solar water heaters. April 5, 2013
Category: Quantum Physics