Ecole Doctorale de Physique et de Chimie Physique
... that the supersymmetric nature of these models provides a natural explanation for the infamous hierarchy problem, implies the unification of the gauge coupling constants at very high energy and provides a natural candidate for dark matter. In addition to these nice features, the left-right symmetry ...
... that the supersymmetric nature of these models provides a natural explanation for the infamous hierarchy problem, implies the unification of the gauge coupling constants at very high energy and provides a natural candidate for dark matter. In addition to these nice features, the left-right symmetry ...
Simulating Erosion Using ANSYS
... Flow Rate • Gas systems work with high Velocities – more prone to erosion • Particles in Wet gas systems can be trapped by liquid – severe erosion • Slugging in pipelines generating periodic high velocities • Unsteady production operation leads to sand accumulation ...
... Flow Rate • Gas systems work with high Velocities – more prone to erosion • Particles in Wet gas systems can be trapped by liquid – severe erosion • Slugging in pipelines generating periodic high velocities • Unsteady production operation leads to sand accumulation ...
The Oscillating Neutrino
... (and their respective antiparticles). The quarks are the building blocks that have fractional electric charge and interact primarily through the strong nuclear force, also called the color force. Color binds quarks together to form the proton, the neutron, all nuclei, and all the other hadrons (stro ...
... (and their respective antiparticles). The quarks are the building blocks that have fractional electric charge and interact primarily through the strong nuclear force, also called the color force. Color binds quarks together to form the proton, the neutron, all nuclei, and all the other hadrons (stro ...
From Sets to Quarks
... effects of QCD by ”sharing” virtual gluons and virtual quark-antiquark pairs that come from the vacuum in sum-over-histories quantum theory. Since the 3 valence constituent quarks within the proton are constantly surrounded by the shared virtual gluons and virtual quark-antiquark pairs, the 3 valenc ...
... effects of QCD by ”sharing” virtual gluons and virtual quark-antiquark pairs that come from the vacuum in sum-over-histories quantum theory. Since the 3 valence constituent quarks within the proton are constantly surrounded by the shared virtual gluons and virtual quark-antiquark pairs, the 3 valenc ...
122_1.pdf
... CERN and FNAL has provided a wealth information on the Standard Model of particle physics. One aspect of our understanding which has not benefited from such experiments at high-energy colliders, however, is the area of spin physics, both spin structure of the proton itself and the spin-dependence of ...
... CERN and FNAL has provided a wealth information on the Standard Model of particle physics. One aspect of our understanding which has not benefited from such experiments at high-energy colliders, however, is the area of spin physics, both spin structure of the proton itself and the spin-dependence of ...
Describing Dark Matter with Effective Operators
... Dark matter particles from the Galactic halo that pass through the Earth will occasionally scatter off nuclei. The resulting recoil energy of the nucleus can be measured in dedicated low background detectors. Dark matter ...
... Dark matter particles from the Galactic halo that pass through the Earth will occasionally scatter off nuclei. The resulting recoil energy of the nucleus can be measured in dedicated low background detectors. Dark matter ...
E - Indico
... Crystal Accelerator • Idea: intense Xrays (40 keV, 109 W) shone on crystal at Bragg angle setup accelerating field – channeled µ+ see accelerating field of GV/m ...
... Crystal Accelerator • Idea: intense Xrays (40 keV, 109 W) shone on crystal at Bragg angle setup accelerating field – channeled µ+ see accelerating field of GV/m ...
An Adaptive Approach for Modifying Inertia Weight using
... process feed profile based on a number of objective functions [2][7]. Fermentation process is associated with the formation of yeast, pharmaceuticals and chemicals etc. The problem to be optimized here was to produce maximum biomass in the shortest time using the minimum amount of raw material out o ...
... process feed profile based on a number of objective functions [2][7]. Fermentation process is associated with the formation of yeast, pharmaceuticals and chemicals etc. The problem to be optimized here was to produce maximum biomass in the shortest time using the minimum amount of raw material out o ...
Spectral Energy Distribution Modeling of Markarian 501 through a
... The main aim of this thesis is to develop a statistical approach that fits AGN SEDs in a rigorous way. Such an approach consists in a χ2 -minimization, based on the LevenbergMarquardt algorithm, that returns the most likely values of the SED parameters, plus a method devised to obtain the related un ...
... The main aim of this thesis is to develop a statistical approach that fits AGN SEDs in a rigorous way. Such an approach consists in a χ2 -minimization, based on the LevenbergMarquardt algorithm, that returns the most likely values of the SED parameters, plus a method devised to obtain the related un ...
A unification of photons, electrons, and gravitons under qbit
... • The symmetry breaking states can only give rise to bosonic collective excitations described by bosonic field ∼ order parameters. But no gauge bosons and fermions. How to get gauge bosons and fermions from qbit models? • The symmetry breaking states are “trivial” unentangled states: |symm. breaking ...
... • The symmetry breaking states can only give rise to bosonic collective excitations described by bosonic field ∼ order parameters. But no gauge bosons and fermions. How to get gauge bosons and fermions from qbit models? • The symmetry breaking states are “trivial” unentangled states: |symm. breaking ...
Compact Muon Solenoid
The Compact Muon Solenoid (CMS) experiment is one of two large general-purpose particle physics detectors built on the Large Hadron Collider (LHC) at CERN in Switzerland and France. The goal of CMS experiment is to investigate a wide range of physics, including the search for the Higgs boson, extra dimensions, and particles that could make up dark matter.CMS is 21.6 metres long, 15 metres in diameter, and weighs about 14,000 tonnes. Approximately 3,800 people, representing 199 scientific institutes and 43 countries, form the CMS collaboration who built and now operate the detector. It is located in an underground cavern at Cessy in France, just across the border from Geneva. In July 2012, along with ATLAS, CMS tentatively discovered the Higgs Boson.