The Origin of Matter-Antimatter Asymmetry Ning Bao Prashant Saraswat
... process described above that violates B and L but conserves B – L. Since B – L conserved, a net lepton number can be converted into a baryon number through this process. Don’t need EWPT– since leptons are ...
... process described above that violates B and L but conserves B – L. Since B – L conserved, a net lepton number can be converted into a baryon number through this process. Don’t need EWPT– since leptons are ...
Jamming/flowing transition of non-Brownian particles suspended in
... are larger than avalanches of spheres by at least one order of magnitude ! We propose the following explanation for this apparent paradox. At the particle scale, the angular shape of polyhedra prevents them from rolling around each other. This strong reduction of the rotational degree of freedom lea ...
... are larger than avalanches of spheres by at least one order of magnitude ! We propose the following explanation for this apparent paradox. At the particle scale, the angular shape of polyhedra prevents them from rolling around each other. This strong reduction of the rotational degree of freedom lea ...
StockelJ_Dynamics_06 - Golem
... proportional to Is) reaches a value twice compared the non-biasing phase. It should be noted that the gradient of the electron temperature remains unchanged, or is even slightly decreasing during biasing. The build up of strong gradients of radial electric field and plasma density is a clear signatu ...
... proportional to Is) reaches a value twice compared the non-biasing phase. It should be noted that the gradient of the electron temperature remains unchanged, or is even slightly decreasing during biasing. The build up of strong gradients of radial electric field and plasma density is a clear signatu ...
Nijmegen `09 August 2009 1 3rd International Summer School on
... • If we can PRODUCE it in a collision, then we can surround the collision point with a detector and STUDY it • Lots of IFs so far, but if our understanding of Cosmology and Particle Physics (Supersymmetry) are correct than we know what we are looking for and what it should look like in our detectors ...
... • If we can PRODUCE it in a collision, then we can surround the collision point with a detector and STUDY it • Lots of IFs so far, but if our understanding of Cosmology and Particle Physics (Supersymmetry) are correct than we know what we are looking for and what it should look like in our detectors ...
Direct comparison of experimental and theoretical results on the
... it is for m = ±1 excitation. (In the latter case, the effect is enhanced due to the suppression of the m = −1 modes in non-uniform plasma [17, 21].) In addition, the profile is substantially ...
... it is for m = ±1 excitation. (In the latter case, the effect is enhanced due to the suppression of the m = −1 modes in non-uniform plasma [17, 21].) In addition, the profile is substantially ...
m - viXra
... where mi 0 is the rest inertial mass of the particle and Δp is the variation in the particle’s kinetic momentum; c is the speed of light. In general, the momentum variation Δp is expressed by Δp = FΔt where F is the applied force during a time interval Δt . Note that there is no restriction concerni ...
... where mi 0 is the rest inertial mass of the particle and Δp is the variation in the particle’s kinetic momentum; c is the speed of light. In general, the momentum variation Δp is expressed by Δp = FΔt where F is the applied force during a time interval Δt . Note that there is no restriction concerni ...
Mass spectrometry and iccd analysis of coupled and uncoupled mode in a gatling-gun like plasma source
... plasmas with higher intensity and energy with respect to singular plasma jets [1]. This source can be operated either in “uncoupled” mode, where seven plasma jets are independently produced, or in “coupled” mode, where plasma jets merge in a single combined very intense jet. Recent studies reported ...
... plasmas with higher intensity and energy with respect to singular plasma jets [1]. This source can be operated either in “uncoupled” mode, where seven plasma jets are independently produced, or in “coupled” mode, where plasma jets merge in a single combined very intense jet. Recent studies reported ...
The Accurate Mass Formulas of Leptons, Quarks, Gauge Bosons
... According to Johan Hansson, one of the ten biggest unsolved problems in physics [1] is the incalculable particle masses of leptons, quarks, gauge bosons, and the Higgs boson. The Standard Model of particle physics contains the particles masses of leptons, quarks, and gauge bosons which cannot be cal ...
... According to Johan Hansson, one of the ten biggest unsolved problems in physics [1] is the incalculable particle masses of leptons, quarks, gauge bosons, and the Higgs boson. The Standard Model of particle physics contains the particles masses of leptons, quarks, and gauge bosons which cannot be cal ...
Duality of Strong Interaction - Indiana University Bloomington
... that there must be dual mediators with spin-0. This observation clearly supports the unified field model presented in [14, 15]. Conversely, the existence of the dual mediators makes the weakton constituents perfectly fit. 6. Quantum chromodynamics (QCD) was established as an SU (3) quantum gauge fie ...
... that there must be dual mediators with spin-0. This observation clearly supports the unified field model presented in [14, 15]. Conversely, the existence of the dual mediators makes the weakton constituents perfectly fit. 6. Quantum chromodynamics (QCD) was established as an SU (3) quantum gauge fie ...
SEARCHES FOR NEW PARTICLES AT THE LHC
... • The LHC project (the accelerator and experiments) was conceived & designed to tackle fundamental questions in science (some which go to the heart of our existence): about the origin, evolution and composition of our universe. In particular, what is the origin of mass? what constitutes dark matter? ...
... • The LHC project (the accelerator and experiments) was conceived & designed to tackle fundamental questions in science (some which go to the heart of our existence): about the origin, evolution and composition of our universe. In particular, what is the origin of mass? what constitutes dark matter? ...
Grafting of Chemical Groups onto Polymers by Means of RF
... Polymer substrates have been modified in a tubolar quartz reactor by means of NH3/H2 RF Glow Discharges. External parameters such as the NH3RI2 feed d o and the RF power imput, that can be conveniently tuned for changing the distribution of species in the plasma, as well as the position of the subst ...
... Polymer substrates have been modified in a tubolar quartz reactor by means of NH3/H2 RF Glow Discharges. External parameters such as the NH3RI2 feed d o and the RF power imput, that can be conveniently tuned for changing the distribution of species in the plasma, as well as the position of the subst ...
Soudan Underground Laboratory
... the stars near the outer edge of a galaxy to be moving much more slowly than those near the central regions. What we have found is that the stars on the outer rim of the galaxy are moving much faster than expected. This indicates that the mass of the galaxy is much greater than we thought it was, an ...
... the stars near the outer edge of a galaxy to be moving much more slowly than those near the central regions. What we have found is that the stars on the outer rim of the galaxy are moving much faster than expected. This indicates that the mass of the galaxy is much greater than we thought it was, an ...
Soudan Underground Laboratory
... the stars near the outer edge of a galaxy to be moving much more slowly than those near the central regions. What we have found is that the stars on the outer rim of the galaxy are moving much faster than expected. This indicates that the mass of the galaxy is much greater than we thought it was, an ...
... the stars near the outer edge of a galaxy to be moving much more slowly than those near the central regions. What we have found is that the stars on the outer rim of the galaxy are moving much faster than expected. This indicates that the mass of the galaxy is much greater than we thought it was, an ...
Suppression and Azimuthal asymmetry of high
... XLIII Recontres de Moriond – QCD and High Energy Interactions ...
... XLIII Recontres de Moriond – QCD and High Energy Interactions ...
1 - VideoLectures.NET
... Look for more difficult sparticle signatures hidden in the data Is it really SUSY? Check eg. the spin of the new particles. Compatible with present/future data on precision measurements (LHCb, B-fact…) • Turn the pole mass measurements into MSSM Lagrangian parameters of the model • Map the measureme ...
... Look for more difficult sparticle signatures hidden in the data Is it really SUSY? Check eg. the spin of the new particles. Compatible with present/future data on precision measurements (LHCb, B-fact…) • Turn the pole mass measurements into MSSM Lagrangian parameters of the model • Map the measureme ...
Temperature and anisotropic-temperature relaxation measurements
... start of the heating process. Other irreversible heating processes exist which are not included in our model. For example, plasma waves launched by the compression cycles could, through various damping processes, transfer their wave energy into plasma kinetic energy. However, we feel that Figs. 5 an ...
... start of the heating process. Other irreversible heating processes exist which are not included in our model. For example, plasma waves launched by the compression cycles could, through various damping processes, transfer their wave energy into plasma kinetic energy. However, we feel that Figs. 5 an ...
Strangeness production
Strangeness production is a signature and a diagnostic tool of quark–gluon plasma (or QGP) formation and properties. Unlike up and down quarks, from which everyday matter is made, strange quarks are formed in pair-production processes in collisions between constituents of the plasma. The dominant mechanism of production involves gluons only present when matter has become a quark–gluon plasma. When quark–gluon plasma disassembles into hadrons in a breakup process, the high availability of strange antiquarks helps to produce antimatter containing multiple strange quarks, which is otherwise rarely made. Similar considerations are at present made for the heavier charm flavor, which is made at the beginning of the collision process in the first interactions and is only abundant in the high-energy environments of CERN's Large Hadron Collider.