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... Hadronic calorimeter – always sampling device, measures energy of hadrons (especially neutral hadrons). Muon detectors – outermost detector, any particle that passes through all previous material is assumed to be a muon (almost all others stopped in HCAL or previous). Luminosity detectors – e. ...
... Hadronic calorimeter – always sampling device, measures energy of hadrons (especially neutral hadrons). Muon detectors – outermost detector, any particle that passes through all previous material is assumed to be a muon (almost all others stopped in HCAL or previous). Luminosity detectors – e. ...
Neutrino mass and New Physics: Facts and Fancy
... The investigation of lepton and baryon numbers can be regarded as an entrance door to new physics Majorana’s hypothesis on the nature of neutrino mass falls into this class: 0n2b = creation of electrons There are a few principles and ideas to build a convincing theory that extends the SM and e ...
... The investigation of lepton and baryon numbers can be regarded as an entrance door to new physics Majorana’s hypothesis on the nature of neutrino mass falls into this class: 0n2b = creation of electrons There are a few principles and ideas to build a convincing theory that extends the SM and e ...
On principles of repulsive gravity: the Elementary Process Theory
... true, the premise P can thus not be true: this is Schiff’s argument against repulsive gravity, originally published in [23]. But if repulsive gravity exists, then P is true, see Sect. 1, which leaves that ΣQM is then false. In other words, quantum theory is fundamentally incompatible with repulsive ...
... true, the premise P can thus not be true: this is Schiff’s argument against repulsive gravity, originally published in [23]. But if repulsive gravity exists, then P is true, see Sect. 1, which leaves that ΣQM is then false. In other words, quantum theory is fundamentally incompatible with repulsive ...
Particle physics tomorrow LHC
... Standard model of massive particles : Supersymmetry • The Higgs mechanism will generate weak boson masses commensurate with the only available scale, MPlanck=1019GeV, rather than 100 or so GeV as required. • The favored way to prevent this to happen is to introduce supersymmetry (SUSY), a symmetry ...
... Standard model of massive particles : Supersymmetry • The Higgs mechanism will generate weak boson masses commensurate with the only available scale, MPlanck=1019GeV, rather than 100 or so GeV as required. • The favored way to prevent this to happen is to introduce supersymmetry (SUSY), a symmetry ...
Physics - The Crowned Anarchist Literature and Science Fiction
... among the heaviest elementary particles, is at any given distance only 10 -36 the magnitude of the electrostatic forces between them, and for two such protons in the nucleus of an atom, this force in turn is many times smaller than the strong nuclear interaction. The dominance of gravity on a macros ...
... among the heaviest elementary particles, is at any given distance only 10 -36 the magnitude of the electrostatic forces between them, and for two such protons in the nucleus of an atom, this force in turn is many times smaller than the strong nuclear interaction. The dominance of gravity on a macros ...
"Recent Progress in Tailoring Trap-based Positron Beams" (AIP Conf. Proc. 1521, AIP Press, Melville NY, 2013), p6104p. 154-164 M. R. Natisin, N. C. Hurst, J. R. Danielson and C. M. Surko (PDF)
... distribution determined by the trapping well. The potential as a function of time is determined by solving the Laplace equation everywhere in space using the finite element method (FEM) and the actual electrode geometry. These solutions are interpolated to find the potential every 50 ns. The positio ...
... distribution determined by the trapping well. The potential as a function of time is determined by solving the Laplace equation everywhere in space using the finite element method (FEM) and the actual electrode geometry. These solutions are interpolated to find the potential every 50 ns. The positio ...
Beta decay as a virtual particle interaction analogous to
... Such an interaction easily explains the beta energy continuum as the energy of the vacuum fluctuations participating in such an interaction covers a range of energies. The beta energy decay curve flattens out at ~750 keV in the upper range and reaches a maximum at nearly 300 keV energy.3 When initia ...
... Such an interaction easily explains the beta energy continuum as the energy of the vacuum fluctuations participating in such an interaction covers a range of energies. The beta energy decay curve flattens out at ~750 keV in the upper range and reaches a maximum at nearly 300 keV energy.3 When initia ...
