Authors: George Rajna
Researchers have demonstrated a new all-optical technique for creating robust second-order nonlinear effects in materials that don't normally support them.  A research team led by physicists at LMU Munich reports a significant advance in laser-driven particle acceleration.  And now, physicists at and their collaborators have demonstrated that computers are ready to tackle the universe's greatest mysteries.  The Nuclear Physics with Lattice Quantum Chromodynamics Collaboration (NPLQCD), under the umbrella of the U.S. Quantum Chromodynamics Collaboration, performed the first model-independent calculation of the rate for proton-proton fusion directly from the dynamics of quarks and gluons using numerical techniques.  Nuclear physicists are now poised to embark on a new journey of discovery into the fundamental building blocks of the nucleus of the atom.  The drop of plasma was created in the Large Hadron Collider (LHC). It is made up of two types of subatomic particles: quarks and gluons. Quarks are the building blocks of particles like protons and neutrons, while gluons are in charge of the strong interaction force between quarks. The new quark-gluon plasma is the hottest liquid that has ever been created in a laboratory at 4 trillion C (7 trillion F). Fitting for a plasma like the one at the birth of the universe.  Taking into account the Planck Distribution Law of the electromagnetic oscillators, we can explain the electron/proton mass rate and the Weak and Strong Interactions. Lattice QCD gives the same results as the diffraction patterns of the electromagnetic oscillators, explaining the color confinement and the asymptotic freedom of the Strong Interactions.
Comments: 21 Pages.
[v1] 2020-01-07 06:04:24
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