High Energy Physics - Homer L. Dodge Department of Physics and
... discovery for decades to come. ...
... discovery for decades to come. ...
Introduction to the Standard Models of Particle Physics and Models
... – mass of a WIMP is roughly determined by the range of the weak force ∼ same mass as about 100 hydrogen atoms same mass as about 100 hydrogen atoms ...
... – mass of a WIMP is roughly determined by the range of the weak force ∼ same mass as about 100 hydrogen atoms same mass as about 100 hydrogen atoms ...
here - islam-science.net
... The Compact Muon Solenoid (CMS) is one of two large particle detectors built on the Large Hadron Collider (LHC). The LHC is contained in a circular tunnel of about 27km in circumference for the main ring, 100 meters beneath the borders of France and Switzerland. Inside the LHC, proton-proton beams c ...
... The Compact Muon Solenoid (CMS) is one of two large particle detectors built on the Large Hadron Collider (LHC). The LHC is contained in a circular tunnel of about 27km in circumference for the main ring, 100 meters beneath the borders of France and Switzerland. Inside the LHC, proton-proton beams c ...
Beyond the Standard Model - Southampton High Energy Physics
... Open Questions beyond the Standard Model • What is the origin of particle masses? due to a Higgs boson? + other physics? solution at energy < 1 TeV (1000 GeV) ...
... Open Questions beyond the Standard Model • What is the origin of particle masses? due to a Higgs boson? + other physics? solution at energy < 1 TeV (1000 GeV) ...
Periodic Table of Particles/Forces in the Standard Model
... quantum numbers like charge (electric, color, etc.), magnetic moment, etc. For photon , Z, and H, an anti-particle is the same as a particle. Same can be true for neutrinos, but we do not yet know this… In general, fermions—particles with half-integral spin: ½ , 3/2, …. Bosons—particles with integra ...
... quantum numbers like charge (electric, color, etc.), magnetic moment, etc. For photon , Z, and H, an anti-particle is the same as a particle. Same can be true for neutrinos, but we do not yet know this… In general, fermions—particles with half-integral spin: ½ , 3/2, …. Bosons—particles with integra ...
Where are we going
... After the discovery of Higgs: Where are we going ? Yifang Wang Institute of High Energy Physics, Beijing Feb. 23, 2014,Tsinghua ...
... After the discovery of Higgs: Where are we going ? Yifang Wang Institute of High Energy Physics, Beijing Feb. 23, 2014,Tsinghua ...
From Maxwell to Higgs - James Clerk Maxwell Foundation
... range. That meant that, if it too had a spin-1 force carrying gauge boson, its mass had to be similar to that of a silver atom! As early as 1960, Sheldon Glashow had written down ...
... range. That meant that, if it too had a spin-1 force carrying gauge boson, its mass had to be similar to that of a silver atom! As early as 1960, Sheldon Glashow had written down ...
PARTICLE PHYSICS - STFC home | Science & Technology
... The very heavy top quark mass is “explained” in the theory by saying that the top quark has a very large coupling (interaction) with the Higgs field !!! (significantly larger than that of the W and Z bosons) All the other “matter” particles have much smaller couplings to the Higgs field and hence mu ...
... The very heavy top quark mass is “explained” in the theory by saying that the top quark has a very large coupling (interaction) with the Higgs field !!! (significantly larger than that of the W and Z bosons) All the other “matter” particles have much smaller couplings to the Higgs field and hence mu ...
An Introduction to the Standard Model and the Electroweak Force
... Given these basic particles, we next describe the basic forces between these particles. all ...
... Given these basic particles, we next describe the basic forces between these particles. all ...
shp_09 - Nevis Laboratories
... In the end, the SU(2) U(1) part of the Standard Model is called the electroweak theory, because electromagnetism and the weak force start out mixed together in this overall gauge symmetry. The four massless gauge bosons predicted by SU(2) U(1) are not apparent at everyday energies. Analogous to our ...
... In the end, the SU(2) U(1) part of the Standard Model is called the electroweak theory, because electromagnetism and the weak force start out mixed together in this overall gauge symmetry. The four massless gauge bosons predicted by SU(2) U(1) are not apparent at everyday energies. Analogous to our ...