Quantum Physics

1112 Submissions

[9] viXra:1112.0091 [pdf] replaced on 2012-02-20 16:50:56

A Three Step Program For Return To Reality In Physics

Authors: Paul J. Werbos
Comments: 19 Pages. more details on how to do steps one and three

Modern physics has become so vast and so complicated that a deep connection between empirical technologically-oriented physics and the realm of basic theory becomes more and more a rare exercise in crossdisciplinary cooperation. This paper will give an overview of many important developments both on the empirical side and the theoretical side, well known to both but not to each other, and give the specifics of a way to connect them more effectively. After the initial review, it provides a three-step program for reorganizing and simplifying our fundamental assumptions about the laws of physics, starting by linking recent progress in areas like backwards time physics, coherence phenomena in quantum optics and cavity QED to the retrieval of an updated form of Einstein’s vision of a universe of mathematically elegant and rigorous continuous fields, addressing empirical and theoretical questions which are still open in the study of nuclear interactions and in the mathematical study of solitons, including the Higgs boson.
Category: Quantum Physics

[8] viXra:1112.0087 [pdf] submitted on 2011-12-30 13:37:01

A Dissertation on the Origins of Quantization in the Universe (With Unification Gravity Electromagnetism as Appendix)

Authors: Leonardo Rubino
Comments: 49 Pages.

The Universe is quantized simply because its age is very long, so its cycle frequency is very small, but not zero! From this, the quantizations of all physical quantities can be derived.
Category: Quantum Physics

[7] viXra:1112.0086 [pdf] submitted on 2011-12-30 13:40:59

Laser Theory

Authors: Leonardo Rubino
Comments: 18 Pages.

In this paper you can find not only a formal LASER Theory, but also useful appendixes which help you to understand the origins of all the equations used in the paper itself.
Category: Quantum Physics

[6] viXra:1112.0084 [pdf] replaced on 2012-04-05 15:45:38

The Hilbert Book Model; in Concise Format

Authors: J.A.J. van Leunen
Comments: 195 Pages.

The Hilbert Book Model is a simple model of fundamental physics that is strictly based on the axioms of traditional quantum logic. It uses a sequence of instances of an extension of a quaternionic separable Hilbert space that each represent a static status quo of the whole universe.
Category: Quantum Physics

[5] viXra:1112.0068 [pdf] submitted on 2011-12-20 15:31:50

Camouflaged Camouflaged Contextual Posturing in the Laws of Nature: Hidden Riches for Novel forms of Technology and Energy Generation

Authors: Donald Reed
Comments: 12 Pages.

Evidence will be presented from a wide spectrum of theoretical and empirical research to advance the thesis that the laws of nature, particularly in the astrophysical and microphysical arenas, are in some sense contextual, possibly dependent on both location and to a certain extent, direction...
Category: Quantum Physics

[4] viXra:1112.0067 [pdf] replaced on 2013-07-31 16:38:53

Comment on “Entanglement and the Thermodynamic Arrow of Time” and Correct Reply on “Comment on "Quantum Solution to the Arrow-of-Time Dilemma"” of David Jennings and Terry Rudolph

Authors: Oleg Kupervasser
Comments: 5 Pages. "Frontiers in Science",Vol.2, No.6, December 2012

Recently David Jennings and Terry Rudolph published two papers as reaction on Maccone’s paper "Quantum Solution to the Arrow-of-Time Dilemma". In these papers, the authors suppose that second law of thermodynamics is not relevant for quantum systems. Unfortunately, these papers did not get relevant reply from Maccone. The reason of this is following. Both Maccone and the above-mentioned authors use thermodynamic law and thermodynamic-like terminology for non-thermodynamic systems, for example, microscopic system of three qubits. However, big size of a system (quantum or classic) is also not an enough condition for a system to be macroscopic. The macroscopic system must also be chaotic and has small chaotic interaction with its environment/observer resulting in decoherence (decorrelation). We demonstrate that for relevant thermodynamic macroscopic quantum systems no objection appears.
Category: Quantum Physics

[3] viXra:1112.0059 [pdf] replaced on 2014-11-28 00:53:44

Nonlocality and Interaction

Authors: Manfred Buth
Comments: 5 Pages.

In order to understand nonlocal phenomena, the corresponding processes must be treated as scattering experiments and investigated in the frame of quantum field theory. Quantum mechanics is not sufficient for this task, because it is only concerned with the influence of a potential on a physical object. But in processes with nonlocal effects the role of interaction between physical objects must be sufficiently respected. – All this is shown first of all for the special case of the spin-1/2-experiment, and then generalized to arbitrary scattering processes.
Category: Quantum Physics

[2] viXra:1112.0040 [pdf] submitted on 2011-12-14 16:26:57

Is Entanglement Signaling Really Impossible?

Authors: Jack Sarfatti
Comments: 9 Pages.

Quantum entanglement cannot be used as a communication channel without an auxiliary light speed limited classical key to unlock the message at the receiver? Hermitian observables guarantee orthogonal sender base states that erase any nonlocal influence of the sender settings on the detection probabilities at the receiver. However, this is no longer true when the entangled whole has different macro-quantum coherent Glauber sender states. Glauber states are non-orthogonal eigenstates of the non-Hermitian photon destruction operator. The Born probability interpretation breaks down because of "phase rigidity" (P.W. Anderson's "More is different"). This is a new regime that is to orthodox quantum theory what general relativity is to special relativity. Antony Valentini has argued that the breakdown of the Born probability rule entails "signal non locality" (aka entanglement signals). The space-time interval between the sending and the receiving irreversible measurements is irrelevant depending only on the free will of the local observers. That is, this is a pre-metrical topological information effect. There is asymmetry between the sending and the receiving. Therefore, there is no ambiguity between active (retro) cause and passive effect. In particular a message can be decoded back from the future before it is sent, but only if it will be sent in a globally self-consistent Novikov time loop.
Category: Quantum Physics

[1] viXra:1112.0023 [pdf] submitted on 2011-12-07 13:12:04

How the World Works

Authors: Ir J.A.J. (Hans) van Leunen
Comments: 14 Pages. The paper concerns a tale that explains quantum mechanics

I wrote this for all people that hate a car load of formulas.
Category: Quantum Physics