Kang_3
... What are the momentum distributions of quarks, antiquarks, and gluons? How are quarks and gluons distributed spatially? How do partons carry the proton spin-1/2? (spin and orbital angular momentum) How are these quark and gluon distributions correlated with overall nucleon properties, such as spin d ...
... What are the momentum distributions of quarks, antiquarks, and gluons? How are quarks and gluons distributed spatially? How do partons carry the proton spin-1/2? (spin and orbital angular momentum) How are these quark and gluon distributions correlated with overall nucleon properties, such as spin d ...
Introduction to Particle Physics
... Can the large number of free parameters in the SM (19 or even larger for massive s) be reduced? Why is the electric charge of electron and proton equal? Should the gauge couplings unify at high energies? In the SM they do not! Why are ~17 orders of magnitude between EW and Planck scale? How can the ...
... Can the large number of free parameters in the SM (19 or even larger for massive s) be reduced? Why is the electric charge of electron and proton equal? Should the gauge couplings unify at high energies? In the SM they do not! Why are ~17 orders of magnitude between EW and Planck scale? How can the ...
Supersymmetry
... In nature there are bosons and fermions Bosons: particles having integer value of the spin Fermions: particles having half integer value of the spin Susy: a mechanism that associates to each boson a fermion. Susy is broken at the present scale of the univers ! ...
... In nature there are bosons and fermions Bosons: particles having integer value of the spin Fermions: particles having half integer value of the spin Susy: a mechanism that associates to each boson a fermion. Susy is broken at the present scale of the univers ! ...
PPT
... to black side. Shiny side gets more momentum so it should rotate with the black side leading ...
... to black side. Shiny side gets more momentum so it should rotate with the black side leading ...
Atomic Physics
... its energy states and its interactions with other particles and with electric and magnetic fields, introduction to atomic physics atomic physics science - introduction to atomic physics atomic energy is the source of power for both nuclear reactors and nuclear weapons this energy comes from the spli ...
... its energy states and its interactions with other particles and with electric and magnetic fields, introduction to atomic physics atomic physics science - introduction to atomic physics atomic energy is the source of power for both nuclear reactors and nuclear weapons this energy comes from the spli ...