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Transcript
Lausanne, 8 February 2000 Symmetry and Its Violation -unifying concept of universe- Tatsuya Nakada Nature Concept of Symmetry - regular pattern - symmetry -… Nature Observation Recognition Creating arts - regular pattern - symmetry -… Concept Realisation Natural Science m1 m2 f= G 2 r Generalising and making physical laws Observation gmn g Extracting more abstract concept mn Postulating and predicting phenomena Observation Too symmetric is “unnatural”. Some asymmetry makes… more dynamic more beautiful if not too much…? Geometrical Symmetries Translation Reflection (parity) Rotation R continuous R R RR RR RR RR RR continuous discrete Spontaneous Breakdown of Rotational Symmetry before dinner once dinner starts Violation of L-R Symmetry World 90% Mirror World 10% 10% World Mirror World (parity violation) 90% Even more with DNA L-R symmetry is fully violated. World Goal of Elementary Particle Physics To look for 1) the ultimate building blocks of the world 2) forces between them 3) underlying dynamics Examples Building blocks sun and planets Building blocks electron and nucleus Solar System Force Underlying dynamics gravitation Newton’s laws of motion Atomic System Force Underlying dynamics electromagnetic Quantum interaction Mechanics (relativistic) Elementary Particle System qq qn Building Force Underlying e blocks dynamics quarks and electromagnetic Quantum leptons (photon: g) Field + weak Theory gg W anti-quarks and (W, Z0) anti-leptons strong (gluon: g) The Standard Model q qe Properties of building blocks, forces and underlying dynamics can be described by rotation and/or translation symmetries in four-dimensional real space (t, x, y, z) or some “internal” space What about discrete symmetries? we saw already Parity: (x, y, z) (-x, -y, -z) two more to come Charge conjugation: particle antiparticle Time reversal: t -t No quantum field theory without CPT symmetry particle world neutrino antiparticle world antineutrino connected by CP transformation Left-handed Right-handed CP Violation We know two examples which shows matter world anti-matter world. CP symmetry is violated !! Evolution of Universe matter big bang anti-matter amount of matter = amount of anti-matter our universe only with matter CP violation Weak decay of neutral K mesons Decay Time 0 + - K pp CPLEAR Experiment (1999) neutral kaon decay time distribution anti-neutral kaon decay time distribution CP violation Problem!! CP violation in the kaon decays can be explained by the Standard Model. CP violation in the universe cannot be explained by the Standard Model. LHCb experiment will look for CP violation beyond the Standard Model in the particle world using B-mesons. Mechanism of CP Violation Standard Model New Physics q q W CP transformation contains X complex conjugation: -iH t iH*t complex coupling constant e complex coupling e constant i.e. H* H CP violation q q At LHC p 7 TeV=2.710-7 cal 1g of those p’s = 20 days of US energy consumption 14 TeV ~100 times more B mesons then before p 7 TeV mini bang LHCb detector CERN and LHC CERN Users The LHCb Experiment Brazil Shielding Yoke Coil plate Calorimeters Tracker USA LHCb Finland Ukraine UK France RICH-1 RICH-2 Germany Moun Switzerland Vertex Italy Netherlands PRC Poland Romania Russia Spain LHCb event An seen by the vertex detector (Lausanne participation) Event Primary Goal of LHCb To understand better the origin of CP violation. Possibly discovering new physics beyond the Standard Model. FAQ Why do we do basic research? - applied research will achieve “state of art”. - basic research opens new horizon. No Maxwell, no radio nor TV. No Röntgen, no X ray picture. No Quantum Mechanics, no modern electronics Why do we do/teach particle physics? - understanding the most fundamental nature of material is one of the most important cultural activities. - elementary particles are one of the basic concepts of modern physics which should be known by everybody. Everybody knows that the earth is round! Why do we do experimental particle physics? - experiments demands state of art technology: spin-off. - students learn how to work in an international collaboration with a given time scale and still to remain creative. We are all curious to know how we are here!
