High Energy Particle Physics

1112 Submissions

[5] viXra:1112.0072 [pdf] submitted on 2011-12-23 20:32:40

Moriond 2012 Theory Proposal: 3-Mass-State SM Higgs Preserves Consistency up to Planck Scale

Authors: Frank Dodd Tony Smith Jr
Comments: 5 Pages.

CERN's analysis of 5/fb of data collected by the LHC by Halloween 2011 will be discussed at the Moriond 2012 Theory Conference in March 2012. A Standard Model Higgs with 3 Mass States at 145, 180-200, and 240 GeV will stabilize the Standard Model up to the Planck Scale and is consistent with the gamma-gamma and ZZ-4l data from the LHC. This paper is a proposal that the 3-mass-state SM Higgs should be discussed at the Moriond 2012 Theory Conference. (References are included in the body of the paper and in linked material.)
Category: High Energy Particle Physics

[4] viXra:1112.0071 [pdf] submitted on 2011-12-24 08:58:24

Opera, Icarus and Sn1987a Interpretations According to the Modified Special Relativity Theory

Authors: Azzam AlMosallami
Comments: 8 Pages.

The OPERA experiment [1] at the Gran Sasso laboratory south of Rome, said they recorded neutrinos beamed to them from the CERN research center in Switzerland as arriving 60 nanoseconds before light would have done. But ICARUS [2], another experiment at Gran Sasso - which is deep under mountains and run by Italy's National Institute of National Physics - now argues that their measurements of the neutrinos energy on arrival contradict that reading. In their paper, the ICARUS [2] team says their findings "refute a superluminal (faster than light) interpretation of the OPERA [1] result." They argue, on the basis of the published studies by two top U.S. physicists, that the neutrinos pumped down from CERN, near Geneva, should have lost most of their energy if they had travelled at even a tiny fraction faster than light. But in fact, the ICARUS scientists say, the neutrino beam as tested in their equipment registered an energy spectrum fully corresponding with what it should be for particles traveling at the speed of light and no more. Neutrinos scarcely interact with matter, which means they escape an exploding star more quickly than photons, something the SN 1987A measurements confirmed. But SN 1987A is 170,000 light years away. If neutrinos moved slightly faster than the speed of light, they would have arrived at the Earth years - not hours - before the detected photons from the supernova. According to my modified special relativity theory (MSRT) [3], I’ll give an interpretation for the OPERA experiment, ICARUS and the SN 1987A, and how they are related with the same theory. The previous experiments are considered as a confirmation for my proposed modified special relativity theory, which is formulated in 1996 in order to unify between quantum theory (Copenhagen school) and relativity theory in concepts, principles and laws.
Category: High Energy Particle Physics

[3] viXra:1112.0065 [pdf] replaced on 2011-12-21 09:35:23

LHC Signals Between 121-130 Gev Interpreted with Quantum-FFF Theory

Authors: Leo Vuyk
Comments: 24 Pages. 24

In Quantum Function Follows Form theory, (Q-FFF) the Higgs particle is interpreted as a massless transformer particle able to create the universe by transforming its shape after real mechanical collision and able to merge with other shaped particles into composite geometrical knots called Quarks and some Leptons (Muons and Tauons). Singular particles are; the two Leptons: the Electron and Positron, different shaped Photons, Gluons and neutrinos all originated out of one single transformed Higgs. As a result, Q-FFF theory leads to a NON Standard Model of elementary particles, also described in this paper. As a consequence the recent Large Hadron Collider (LHC) results, showing special values between 121-130 GeV for the predicted signal of the massive Standard Model (SM) Higgs, should be interpreted as the result of one or more different composite particle decay- and collision processes and not as the result of Higgs decay. In this paper I present some possible transformations after the collision of (Non- SM) Proton particles interpreted as Quark- Gluon cloud collisions, into the observed production and decay results such as, gg into Di-Photons, ZZ into 4 Lepton or WW into LvLv .
Category: High Energy Particle Physics

[2] viXra:1112.0053 [pdf] submitted on 2011-12-17 12:31:04

126 Gev Boson Constitutes Higgs Charged Boson and W Boson

Authors: U .V . S. Seshavatharam, S. Lakshminarayana
Comments: 9 Pages. SUSY and strong nuclear gravity in (120-160) GeV mass range. Hadronic journal, Vol-34, No 3, 2011 June, p277-300

It is suggested that, in super symmetry, the fermion and boson mass ratio is equal to 2.62218404 but not unity. Based on strong nuclear gravity and super symmetry it is suggested that: there exists a charged Higgs fermion of rest energy 103125 MeV. Its charged susy boson rest energy is 45586 MeV. The charged Higgs fermion and nuclear charge radius play a crucial role in the emission of the electron in Beta decay. The recently discovered neutral boson of rest energy 123 to 127 MeV seems to be composed of a Higgs charged boson and a W boson. Its obtained rest energy is 126 GeV.
Category: High Energy Particle Physics

[1] viXra:1112.0035 [pdf] replaced on 2012-01-16 00:37:00

LHC Higgs: 145 Gev or 126 Gev ?

Authors: Frank Dodd Tony Smith Jr
Comments: 18 Pages.

CERN's analysis of 5/fb of data collected by the LHC by Halloween 2011 led to announcement on 13 Dec 2011 of CERN's Consensus View: Exclusion of Standard Model Higgs with 3 Mass States at 145, 180, and 240 GeV and Observation of Excesses compatible with 1 SuperString Higgs Mass State at 126 GeV.Despite a CERN Consensus View Against a SM Higgs with those 3 Mass States I remain in favor of a Standard Model Higgs with 3 Mass States including 145 GeV. (References are included in the body of the paper and in linked material.)
Category: High Energy Particle Physics