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PH 301 Dr. Cecilia Vogel Lecture 19
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Review Outline conservation laws hadrons, baryons, mesons flavor and color quarks and leptons matter and antimatter
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Conservation Laws Energy momentum – in CM frame, p=0 angular momentum (spin) lepton #, which = # leptons-#antileptons each “generation” baryon #, which = (#quarks-#antiquarks)/3 electric charge color charge always neutral –don’t worry flavor is conserved, except in weak interactions often accompanied by neutrino
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PAL Check above Conservation Law s
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Lepton # Conservation lepton # is conserved # electron leptons - # elect. antileptons = constant # mu leptons - # mu antileptons = constant # tau leptons - # tau antileptons = constant example - e - + e electron lepton number initial =0 electron lepton number final = 1-1 = 0 conserved tau lepton number initial = 1 tau lepton number final = 1 conserved
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Baryons baryon is any particle made of 3 quarks such as p and n antibaryon made of 3 antiquarks such as p = u u d meson is any particle made of quarks and antiquark such as + = u d which has charge =? (add quark & antiquark charges) pentaquark is any particle made of 4 quarks and an antiquark
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Baryon # Conservation # quarks - # antiquarks = constant Usually OK to use # baryons - # antibaryons = constant so long as no pentaquarks involved example: a proton can’t turn into a positron initial baryon # = 1 final baryon # = 0 not conserved — won’t happen!
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Momentum Conservation pi =pf for simplicity, always consider the center of mass frame for the initial particles pi =0 then pf =0 example: e + + e - photons can it just be one photon? NO pf=h/ is not =0, p not conserved Can it be two photons? YES yes — if have same l and move in opposite dir pf = h/ - h/ = 0 (conserved)
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Energy Conservation Ei = Ef mass is NOT conserved can be turned to and from other forms of energy example: e + + e - photons If e- and e+ are approx at rest when they annihilate, what are the wavelengths of the photons? Ei = (0.511MeV)+(0.511MeV) Ef = 2hc/. = 2.4 pm
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Angular Momentum Conservation Angular momentum is conserved must include spin example: e + + e - spin of e is ½, spin of is 1 (see table) so ½ + ½ = 1 + 1??? no angular momentum must be added as vectors
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Angular Momentum Addition angular momentum must be added as vectors classical ang mom vectors can add to anything from the difference between the two ang mom’s to the sum quantum ang mom vectors can add to anything from the difference between the two ang mom’s to the sum in integer steps
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Angular Momentum Addition quantum ang mom vectors can add to anything from the difference between the two ang mom’s to the sum, in integer steps example: e + + e - ½ and ½ can add to zero 1 and 1can also add to zero so angular momentum can be conserved, 0=0 other examples: ½ and ½ can add to 0 or 1 1 and 1 can add to 0, 1, or 2 ½ and 1 can add to ½ or 3/2
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Electric Charge Conservation Electric charge is conserved example: neutron decays into a proton baryon # would be conserved (1=1) but charge would not be conserved (0≠1) so another particle produced = electron but now electron lepton # not conserved (0≠1) what can we add that will fix lepton # without messing up baryon # or charge? answer: an uncharged antilepton All conserved in this:
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Flavor Conservation Flavor is conserved well, not really in a down quark turns into an up quark quark flavor not conserved Flavor is conserved except in weak interactions identified by the appearance of neutrinos
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Color Conservation Color is conserved what is color? quarks have color charge red or green or blue baryons have white or neutral color charge one quark each red + green + blue = white
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Color Conservation anti quarks have color charge antired (cyan) or antigreen (magenta) or antiblue (yellow) mesons have white or neutral color charge one quark color, one quark anticolor e.g. blue + antiblue = blue + yellow = white Color is conserved because it’s always neutral
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