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High Energy Physics Lecture 1: Overview of the current state of HEP.

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1 High Energy Physics Lecture 1: Overview of the current state of HEP

2 Science is built up of facts, as a house is built of stones; but an accumulation of facts is no more a science than a heap of stones is a house. Henri Poincaré (1854 – 1912) in “Science and Hypothesis” (1905)

3 “High Energy Physics”: emphasis on methods Accelerators Detectors “Elementary Particle Physics”: emphasis on the objects of study Leptons and QuarksFundamental Particles: Composite Particles:Hadrons composed of quarks Two Names for our Subject:

4 The Fundamental Particles: Leptons and Quarks Leptons: Quarks: To date we have no indication of the existence of more than the three generations of fundamental particles.

5 Antimatter Every particle has an antiparticle The antiparticle of the electron e - is the positron e + When a particle collides with its antiparticle, they can annihilate into a pair of photons: The antiparticle of the    is the   The antiparticle of the proton p is the antiproton

6 More on Antimatter The anti u quark is denoted Similarly the anti d quark etc.: Also the antineutrino: The complete list of fundamental particles consists of leptons, quarks, antileptons and antiquarks.

7 Hadrons Hadrons are composite particles They consist either of a quark and an antiquark these are called mesons Example: pi meson: or they consist of three quarks these are called baryons Example: proton: More than 200 hadrons are known some of these are shown in the following tables:

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11 Hierarchy of sizes and masses

12 Units: definition of electron-Volt (eV) V 1 V e The electron e acquires a K.E. of 1 eV in falling through a p.d. of 1 V

13 Mass – Energy Equivalence (Einstein): Which explains the use of the unit of mass: MeV/c 2

14 NameSymbolFactor femto f 10 -15 pico p 10 -12 nano n 10 -9 micro μ 10 -6 milli m 10 -3 kilo k 10 3 Mega M 10 6 Giga G 10 9 Terra T 10 12 More on Units: multiples of the basic units

15 Remember the masses of a few of the most frequently encountered particles (only approximate values are shown to make it easier to remember): ParticleMass (MeV/c 2 ) electron, e0.5 muon, μ106 pion, π140 proton, p938.3 neutron, n939.6

16 The CERN Accelerator Complex SPbSU PNPI PS: proton synchrotron (1959 - ) SPS: Super PS (1976 - ) SppS: super antiproton-proton synchrotron (1981 – 1990) LHC: Large Hadron Collider planned start of operation 2007 Experimental groups from SPbSUandPNPI take part in experiments ALICE, ATLAS, CMS and LHC-b.

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