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Feynman Diagrams

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Title: Feynman Diagrams Author: Ian Lindley Last modified by: Ian Lindley Created Date: 2/16/2001 4:18:51 AM Document presentation format: On-screen Show – PowerPoint PPT presentation

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Title: Feynman Diagrams


1
Feynman Diagrams
  • Richard Feynman invented the concept of virtual
    photons as part of his theory of quantum
    electrodynamics.
  • The maths is complicated but, fortunately,
    Feynman depicted the theory using diagrams to
    represent the interactions.

2
Electron Electron Interaction
e-
e-
? a photon (uncharged)
e-
e-
3
b- decay
1
0
n
1
e
p

n

0
1
-1
4
The Neutrino
  • An uncharged particle.
  • Assumed to have zero mass
  • Emitted in radioactive beta decay
  • The weak nuclear force is responsible
  • The antineutrino is the antiparticle of the
    neutrino n it has opposite spin to a
    neutrino.

5
b- decay
n
p
e-
W-
n
6
The Weak nuclear force
  • Responsible for Beta decay as well as
    interactions involving electrons or neutrinos
    with protons or neutrons.
  • Carried by exchange particles known as W-bosons.
  • There are two types the W and the W- which can
    also represented in Feynman diagrams like this

7
b- decay (identical representation)
n
p
W-
e-
n
8
Quark representation
9
Quark representation
Proton
Neutron
10
b- decay Quark representation
n
e-
W-
11
b decay
n
n
e
W
p
12
Electron capture
n
n
e-
W
p
13
Neutrino neutron collisions
e-
p
W
n
n
14
Antineutrino proton collisions
e
n
W
n
p
15
Electron - proton collisions
n
n
W-
e-
p
16
Feynman Diagrams
  • Note questions on the weak interaction will be
    limited to changes in which a proton changes to a
    neutron or vice versa.
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