THE STANDARD MODEL - jcdavdasuya.comjcdavdasuya.com/images/form/anil.pdf · Standard model The...
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E-MODULE
SUBJECT PHYSICS
PAPER PARTICLE PHYSICS
MODULE NO. 1
TOPIC Introduction to Standard Model
PREPARED BY Dr. Anil Kumar, Post Graduate
Department of Physics, JC DAV
College, Dasuya, Punjab
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INTRODUCTION
What’s fundamental
The Standard model is the quantum
theory that describes strong
interaction and electroweak
interaction
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Scale of subatomic matter
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Ancient times People think that earth, air, fire, and water are the fundamental elements.
1802 Dalton’s Atomic theory began forming.
1897 J. J. Thompson discovered the electron.
1911 Rutherford discovered positive nucleus.
1930 Pauli invented the neutrino particle.
1932 James Chadwick discovered the neutron.
1937 The muon was discovered by J. C. Street and E. C. Stevenson.
1956 First discovery of the neutrino by an experiment: the electron neutrino.
1962 Discovery of an other type of neutrino: the muon neutrino.
1969 Friedman, Kendall, and Taylor found the first evidence of quarks.
1974 The charmed quark was observed.
1976 The tau lepton was discovered at SPEAR.
1977 Experimenters found proof of the bottom quark.
1983 Carlo Rubbia and Simon Van der Meer discovered the W and Z bosons.
1991 LEP experiments show that there are only three light neutrinos.
1995 The top quark was found at Fermilab.
1998 Neutrino oscillations may have been seen in LSND and Super-Kamiokande.
2000 The tau neutrino was observed at Fermilab.
2003 A Five-Quark State has been discovered.
A short summary of events
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p
W h a t a j u n g l e !
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Standard model
The Standard Model describes the properties and interactions of the fundamental particles which are the building blocks of the universe.
It organizes all the matter and energy (well most of it)
Matter Vs. Antimatter
Charge
Annihilation
Pair production
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Standard Model
The fundamental model for elementary particles.
Point Particles not strings !
No gravity !
What are the 3 families of particles?
What’s a Boson, Fermion, Lepton and quark?
What are Higgs particles??
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Fermion Flavors
Leptons and Quarks
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Leptons
Solitary particles
Charge on
particles Vs.
antiparticles
Generations or
Families
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Leptons
Lepton family conservation-
separate conservation law for
electron, muon and tau family.
Neutrino’s and conservation laws
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Mediate decays
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Quarks
Generations or
families
Charge
Combinations
Particles Vs.
antiparticles
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What are Protons and Neutrons made of ?
Quarks have both electric and color charge
Color charges: Red, green & blue {1,2,3}
And Flavors: { u d c s t b }
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Combinations of quarks –
Hadrons
Baryons
Examples of
Baryon particles
Spin and
consequences
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Combinations of quarks - Hadrons
Mesons- quark-
antiquark
Examples of
Mesons
Spin and
consequences
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Quarks and Anti-Quarks
Baryons and Mesons are colorless.
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Bosons
Spin
Mediate forces (Fields Vs. exchange particles)
Electromagnetic
Weak
Strong
Gravity
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Higgs Boson adds particle mass
These spin-less force particles give other
particles their mass.
The addition of the Higgs field (a field
implies there are associated force
particles) again helps to renormalize the
theory.. gets rid of infinities.
Extension of the local U(1) symmetry of
QED to include QCD SU(3), was done by
Yang and Mills in 1954. Electroweak
theory proven 1983.
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Science needs advanced technology
How to Obtain Particles Accelerator
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Modern Detectors Bubble Chamber
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The Nobel Prize winner
1979 Nobel Prize-- GLASHOW, SALAM and WEINBERG
the theory of the unified weak and electromagnetic interaction.
1984 Nobel Prize-- RUBBIA and VAN DER MEER
the discovery of the field particles W and Z, communicators of weak
interaction.
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CONCLUSION
THE STANDARD MODEL
Fermions Bosons
Leptons Quarks
Baryons Mesons
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