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Particle Physics

Particle Physics. By: Brett Slajus. Standard Model of Elementary Particles. Three Generations of Matter (Fermions). The Standard Model. E lectromagnetic, weak, and strong forces D ark matter, full theory of gravitation, Higgs boson Fermions Bosons. Quarks. Hadrons Protons and Neutrons

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Particle Physics

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  1. Particle Physics By: Brett Slajus

  2. Standard Model of Elementary Particles Three Generations of Matter (Fermions)

  3. The Standard Model Electromagnetic, weak, and strong forces Dark matter, full theory of gravitation, Higgs boson Fermions Bosons

  4. Quarks Hadrons Protons and Neutrons Baryons and Mesons Color Confinement Flavour

  5. Quark Types (Truth) (Beauty) • J = Total Angular momentum • B = Baryon Number • Q= Electric Charge • Iз = Isospin • C = Charm • S = Strangeness • T = Topness • B’ = Bottomness

  6. Baryons • Instability • Fields they interact with • There are 9 main Baryons and then variations on some. • Lambda particle typically can have either a Strange or a Down Quark along with a Up and Down Quark (so its charge is 0). But, it can also exist with a Charm or Top Quark (though it will decay quicker). • The 3 most common types of quarks are Up, Down, and Strange. The other 3 exist, but are much more rare.

  7. Some Baryon Quark Types • Proton = 2 Up Quarks + 1 Down Quark • Charge = 2 (+2/3) + 1 (-1/3) = +1 • Neutron = 1 Up Quark + 2 Down Quarks • Charge = 1 (+2/3) + 2(-1/3) = 0 • Lambda = 1 Up Quark + 1 Down Quark + 1 Charm or Strange or Top or Bottom Quark • Charge Strange Lambda = 1 (+2/3) + 2 (-1/3) = 0 • Other types: Sigma, Xi, Omega

  8. Anitquarks Antiparticles Magnitude and charge Symbols u = up quark u = antiup quark

  9. Mesons Quark and an anti-quark. Pions are the lightest known Meson and have no isospin. Like Baryons, there are many derivations of the same meson, but just with different types of particles. Strong, weak and electromagnetic forces

  10. Some Meson Quark Types • Pion = 1 Up Quark + 1 Anti-Down Quark • Charge = 1 (+2/3) + 1 (+1/3) = +1 • Kaon = 1 Strange Quark + 1 Anti-Up or Anti-Down Quark • (Anti-Up) Charge = 1 (-1/3) + 1 (-2/3) = -1 • Other examples of Mesons: Eta, D Meson, and B Meson.

  11. Color Charge Not actual colors Symbolic Form a “colorless” mass Color Confinement Anti Colors Quark Colors Anti-Quark Colors

  12. Leptons • Sub atomic particle • Electron • 3 Generations • Forces – Weak, Electromagnetic, Gravitational

  13. Neutrinos Charge Not faster than the speed of light… 3 forms Forces affected by How they are made

  14. Lepton Properties

  15. Antileptons Like Quarks, there is an antiparticle version of Leptons. They are Antileptons. (Clever names.) Magnitudes and Signs Neutrino theories Positron

  16. Atoms & Exotic Atoms Standard Atom formation Exotic Atom substitutions Effects on size, mass and shape of atom structure

  17. Onium Type of Exotic Atom What is an Onium? Electron + Positron = ____ (Not stable, however, but it still counts for a brief moment in time (Explanation on next slide for parenthetical commentary)) Mesons and Onium Size of Onium

  18. Positron Annihilation • Positron + Electron = 2 Gamma Rays • Positron Annihilation is used in PET (Positron Emission) • Brain Mapping • Isotopes

  19. PET Scan

  20. Gauge Bosons They’re particles too! Photons Gluons Z and W

  21. Gluon Strong force Vector boson Colors and Anti- Colors

  22. Photons Electro magnetic force Vector boson too Advancements in lasers, photochemistry, Bose-Einstein condensation research, high resolution microscopy, lasers, and measuring molecular distances.

  23. W and Z Bosons • Actually three Weak Particles • The W stands for “Weak” • The W’s are positively and negatively charged whereas the Z particle is neutral (Zero charge) • What the Ws do • Mediators of neutrino absorption and emission • What the Zs do • Only when neutrinos scatter elastically

  24. W and Z Bosons continued They have mass while the others don’t due to Higgs Mechanics. This is because they have electroweak interactions, which is the combination of weak and electromagnetism. W’ and Z’ Bosons

  25. Graviton & Higgs Boson Mediate force of Gravitation Standard Model Theory It would have no mass nor a charge, but a spin of 2. This is because of the stress-energy tensor which is the source of the gravitational field of an object. • “God Particle” • Reason for mass • Hasn’t been discovered, only thoerized • Would fill all places in space where there is neither matter nor anti-matter nor dark matter

  26. The End

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