Jets at the LHC: Where does the lost energy go?
... jet cone? From jet RAA and photon-jet: ~10% of the jet energy go out of the jet cone at high pT, O(10 GeV) To figure out the ΔE(pT) directly from data: Important to measure triggered jet differential cross-section using different trigger objects (using ideally isolated photons for CMS+ATLAS / lead ...
... jet cone? From jet RAA and photon-jet: ~10% of the jet energy go out of the jet cone at high pT, O(10 GeV) To figure out the ΔE(pT) directly from data: Important to measure triggered jet differential cross-section using different trigger objects (using ideally isolated photons for CMS+ATLAS / lead ...
Characteristics of the Solid Volume Fraction Fluctuations in a CFB
... intermediate suspension density range. The shape of the curves was observed to be close to parabolic which can be expected because of the relationship of the mean and the standard deviation definition, Equation (1). A similar analysis of the experimental data is carried out here. Since the lateral p ...
... intermediate suspension density range. The shape of the curves was observed to be close to parabolic which can be expected because of the relationship of the mean and the standard deviation definition, Equation (1). A similar analysis of the experimental data is carried out here. Since the lateral p ...
Louis de Broglie
... subject like Maxwell’s electromagnetic theory or statistical thermodynamics. The course was based on standard subject like mechanics and wave optics. Books on these topics were also not available in French. French translations of foreign textbooks were often of poor quality. De Broglie made it a poi ...
... subject like Maxwell’s electromagnetic theory or statistical thermodynamics. The course was based on standard subject like mechanics and wave optics. Books on these topics were also not available in French. French translations of foreign textbooks were often of poor quality. De Broglie made it a poi ...
Enrichment and Coupling of the Finite Element and
... Meshless or particle methods such as reproducing kernel particle methods (RKPM),14,16 element-free Galerkin (EFG)1,3{5,19,20 or smooth particle hydrodynamics (SPH),9,21 among others (see2,15 for a general presentation), have nowadays proven their applicability in computational mechanics. They do not ...
... Meshless or particle methods such as reproducing kernel particle methods (RKPM),14,16 element-free Galerkin (EFG)1,3{5,19,20 or smooth particle hydrodynamics (SPH),9,21 among others (see2,15 for a general presentation), have nowadays proven their applicability in computational mechanics. They do not ...
27_1.pdf
... the Boltzmann equation. In a paper [2], a new method to directly construct a class of discrete velocity models for mixtures from the Boltzmann equation was proposed by replacing the integration of eq. (7) over the full group of rotations by summation over the discrete subgroups of this group. In the ...
... the Boltzmann equation. In a paper [2], a new method to directly construct a class of discrete velocity models for mixtures from the Boltzmann equation was proposed by replacing the integration of eq. (7) over the full group of rotations by summation over the discrete subgroups of this group. In the ...
From prc@ridge
... respectively. Examining data that was taken with LVL1 trigger and recording the decision of LVL2, monitored the inefficiency of LVL2 trigger, which was found to be less than 1\% for events fully inside the acceptance. Most of the LVL2 triggered data was background since the trigger was optimized to ...
... respectively. Examining data that was taken with LVL1 trigger and recording the decision of LVL2, monitored the inefficiency of LVL2 trigger, which was found to be less than 1\% for events fully inside the acceptance. Most of the LVL2 triggered data was background since the trigger was optimized to ...
Top Condensation as a Motivated Explanation of the Top Forward
... couplings, and can be exchanged in the t-channel to produce the observed AtF B . In top condensation, electroweak symmetry is dynamically broken, as in technicolor (and in QCD), through the formation of bound states. The difference from technicolor is that the condensate is made up of the top quark ...
... couplings, and can be exchanged in the t-channel to produce the observed AtF B . In top condensation, electroweak symmetry is dynamically broken, as in technicolor (and in QCD), through the formation of bound states. The difference from technicolor is that the condensate is made up of the top quark ...
Summarising Constraints On Dark Matter At The Large Hadron
... nucleosynthesis of light elements and their isotopes was possible, creating nuclei such as hydrogen, deuteron, helium and lithium. This process is called Big Bang nucleosynthesis (BBN), and it is the earliest epoch in the history of the Universe from which data is obtainable. Thus, from the pre-BBN ...
... nucleosynthesis of light elements and their isotopes was possible, creating nuclei such as hydrogen, deuteron, helium and lithium. This process is called Big Bang nucleosynthesis (BBN), and it is the earliest epoch in the history of the Universe from which data is obtainable. Thus, from the pre-BBN ...
Duality Theory of Weak Interaction
... are prohibited. The reason is that Aaµ is an SU (N1 )-tensor with tensor index a, and Gkµ is an SU (N2 )-tensor with tensor index k. The above combination violates PRI. This point of view clearly shows that the classical electroweak theory violates PRI. Hence the classical electroweak theory is only ...
... are prohibited. The reason is that Aaµ is an SU (N1 )-tensor with tensor index a, and Gkµ is an SU (N2 )-tensor with tensor index k. The above combination violates PRI. This point of view clearly shows that the classical electroweak theory violates PRI. Hence the classical electroweak theory is only ...
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.