High Energy Particle Physics

1103 Submissions

[15] viXra:1103.0129 [pdf] submitted on 31 Mar 2011

Empirical Data of Nuclear Reactions that Take Place in Conditions of Cold Fusion

Authors: Giancarlo Gazzoni
Comments: 54 pages.

Classical semi-empirical analysis of beta decay, decays to electron capture and the phenomena of "cold fusion" This article dealt with a statistical empirical decays b + b -., with empirical formulas semiclassical. derivate da semplici osservabili macroscopiche. derived from simple macroscopic observables. In this way, we can find and "isolate" sensitive variables which determine the rate of decay of nuclei." and we can begin to understand how to intervene "to artificially change the natural rate of decay, and find ways to invalidate, fission and fuse nuclei in terms of energy" cool " We can identify the underlying mechanism that allows this type of decays, and we can understand why the decay times, for b + , electron capture and decay a are the same when the decay modes occur simultaneously. We can understand the mechanisms of the mysterious so-called Cold Fusion. and explain how weak mergers occur in environments with very low energy density.
Category: High Energy Particle Physics

[14] viXra:1103.0128 [pdf] submitted on 31 Mar 2011

Possible Nonstandard Effects in Z-Gamma Events at LEP2

Authors: K.J. Abraham, Bodo Lampe
Comments: 12 pages.

We point out that the so-called 'radiative return' events e+e- → Z are suited to the study of nonstandard physics, particularly if the vector bosons are emitted into the central detector region. An effective vertex is constructed which contains the most general gauge invariant e+e-Z interaction and its phenomenolgocial consequences are examined. Low Energy Constraints on the effective vertex are discussed as well.
Category: High Energy Particle Physics

[13] viXra:1103.0127 [pdf] submitted on 31 Mar 2011

Complete Helicity Decomposition of the B-T-Tbar Vertex Including Higher Order QCD Corrections and Applications to E+e → T+tbar

Authors: Bodo Lampe
Comments: 20 pages.

The complete density matrix for all polarization configurations in the process B* → t+tbar, where B* is an off-shell Z or photon and t is the top quark, is calculated numerically including oneloop QCD corrections. The analysis is done in the framework of the helicity formalism. The results are particularly suited for top quark production at the Linear Collider, but may be useful in other circumstances as well. Relations to LEP and Tevatron physics are pointed out.
Category: High Energy Particle Physics

[12] viXra:1103.0126 [pdf] submitted on 31 Mar 2011

New Interactions in Top Quark Production and Decay at the Tevatron Upgrade

Authors: Bodo Lampe
Comments: 10 pages.

New interactions in top-quark production and decay are studied under the conditions of the Tevatron upgrade. Studying the process q+qbar → t+tbar → b+mu+nu+tbar it is shown how the lepton rapidity and transverse energy distribution are modified by nonstandard modifications of the g-t-tbar- and the t-b-W-vertex.
Category: High Energy Particle Physics

[11] viXra:1103.0125 [pdf] submitted on 31 Mar 2011

NLO QCD Corrections and Triple Gauge Boson Vertices at the NLC

Authors: K.J. Abraham, Bodo Lampe
Comments: 14 pages.

We study NLO QCD corrections as relevant to hadronic W decay in W pair production at a future 500 GeV e+e- linac, with particular emphasis on the determination of triple gauge boson vertices. We find that hard gluon bremstrahlung may mimic signatures of anomalous triple gauge boson vertices in certain distributions. The size of these effects can strongly depend on the polarisation of the initial e+e- beams.
Category: High Energy Particle Physics

[10] viXra:1103.0124 [pdf] submitted on 31 Mar 2011

A Low-energy Compatible Su(4)-type Model for Vector Leptoquarks of Mass ≤ 1 Tev

Authors: Andreas Blumhofer, Bodo Lampe
Comments: 24 pages.

The Standard Model is extended by a SU(2)L singlet of vector leptoquarks. An additional SU(4) gauge symmetry between right-handed up quarks and right-handed leptons is introduced to render the model renormalizable. The arrangement is made in such a way that no conflict with low energy restrictions is encountered. The SU(2)L singlet mediates interactions between the right-handed leptons and up type quarks for which only moderate low energy restrictions exist.
Category: High Energy Particle Physics

[9] viXra:1103.0123 [pdf] submitted on 31 Mar 2011

A Note on QCD Corrections to A_b(fb) Using Thrust to Determine the B-Quark Direction

Authors: Bodo Lampe
Comments: 7 pages.

I discuss one-loop QCD corrections to the forward backward asymmetry of the bquark in a way appropriate to the present experimental procedure. I try to give insight into the structure of the corrections and elucidate some questions which have been raised by experimental experts. Furthermore, I complete and comment on results given in the literature.
Category: High Energy Particle Physics

[8] viXra:1103.0122 [pdf] submitted on 31 Mar 2011

Complete Description of Polarization Effects in Top Quark Decays Including Higher Order QCD Corrections

Authors: Bodo Lampe
Comments: 26 pages.

The complete set of matrix elements for all polarization configurations in top quark decays is presented including higher order QCD corrections. The analysis is done in the framework of the helicity formalism. The results can be used in a variety of circumstances, e.g. in the experimental analysis of top quark production and decay at Tevatron, LHC and NLC. Relations to LEP1 and LEP2 physics are pointed out.
Category: High Energy Particle Physics

[7] viXra:1103.0121 [pdf] submitted on 31 Mar 2011

Directions in High Energy Physics

Authors: Bodo Lampe
Comments: 22 pages.

The future goals of particle physics are classified from a theorist's point of view. The prospects of mass and mixing angle determination and of the top quark and Higgs boson discovery are discussed. It is shown that the most important progress will come from LHC and NLC. These machines should be planned and developed as quickly as possible.
Category: High Energy Particle Physics

[6] viXra:1103.0120 [pdf] submitted on 31 Mar 2011

The First Moment of δg(x) - a Comparative Study

Authors: Bodo Lampe, Andreas Ruffing
Comments: 22 pages.

The sensititivity of various future polarization experiments to the first moment Δg of the polarized gluon density is elucidated in detail. It is shown to what extent the first moment can be extracted from the future data as compared to the higher moments. We concentrate on two processes which in the near future will become an important source of information on the polarized gluon density, namely the photoproduction of open charm to be studied at CERN (COMPASS) and SLAC and the production of direct photons at RHIC.
Category: High Energy Particle Physics

[5] viXra:1103.0116 [pdf] submitted on 30 Mar 2011

QCD Corrections to W Pair Production at LEP200

Authors: K.J. Abraham, Bodo Lampe
Comments: 20 pages

One loop QCD corrections to hadronic W decay are calculated for arbitrary W polarizations . The results are applied to W pair production and decay at LEP200. We focus on the corrections to angular distributions with particular emphasis on azimuthal distributions and correlations. The relevance of our results to the experimental determination of possible nonstandard triple gauge bosons interactions is discussed.
Category: High Energy Particle Physics

[4] viXra:1103.0082 [pdf] submitted on 21 Mar 2011

Symmetric Equations that Reproduce the Fine Structure Constant and the Muon-, Neutron-, and Proton-Electron Mass Ratios

Authors: J. S. Markovitch
Comments: 2 pages.

Symmetric equations are introduced that reproduce the fine structure constant inverse and the muon-, neutron-, and proton-electron mass ratios near their experimental limits.
Category: High Energy Particle Physics

[3] viXra:1103.0015 [pdf] submitted on 5 Mar 2011

Wavefunction Collapse and Human Choice-Making Inside an Entangled Mirror Symmetrical Multiverse.

Authors: Leo Vuyk
Comments: 8 pages.

If the process of wave function collapse of two entangled particles into mirror symmetrical states, is the basic process for all created particles, then we should live inside one part of a mirror symmetrical entangled copy MULTIVERSE with one central origin. We will give it the name: Raspberry Multiverse. Even human choice making should be subjected to this mirror symmetrical process. Benjamin Libet described a choice experiment, which we could use to measure how many copy universes there should be.
Category: High Energy Particle Physics

[2] viXra:1103.0006 [pdf] submitted on 2 Mar 2011

On a Natural Solution for the Hierarchy Problem using Dimensional Regularization

Authors: Ervin Goldfain
Comments: 4 pages.

This brief report suggests a straightforward solution for the hierarchy problem of the Standard Model using dimensional regularization of quantum field theory (QFT). Our viewpoint breaks away from traditional approaches to the hierarchy problem based on supersymmetry (SUSY), technicolor, extra-dimensions, anthropic arguments, fine-tuning or gauge unification near the Planck scale.
Category: High Energy Particle Physics

[1] viXra:1103.0002 [pdf] replaced on 2011-12-11 02:20:47

3 Dimensional String Based Alternative Particles Model

Authors: Leo Vuyk
Comments: 20 Pages. 20

Abstract, In particle physics it is an interesting challenge to postulate that the FORM and structure of elementary particles is the origin of different FUNCTIONS of these particles. In this paper we present a possible solution based on complex 3-D ring shaped particles, which are equipped with three point like hinges and one splitting point, all four points divided equally over the ring surface. The 3-D ring itself is postulated to represent the “Virgin Mother” of all other particles and is coined Higgs particle, supplied with the 3-hinges coded (OOO), which gives the particle the opportunity to transform after some sort of mechanical collision with other particles into a different shape, with a different function. Thus in this Quantum Function Follows Form theory, the Higgs is interpreted as a massless transformer particle able to create the universe by transform its shape after real mechanical collision and merge with other shaped particles into complex and compound knots.
Category: High Energy Particle Physics