basic concepts: relativistic notation, kinematics, and wave …€¦ · introducing einstein’s...
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Basic Concepts:
Relativistic notation, kinematics,
and wave equations
International School on Theory & Analysis in Particle Physics
Nefer Şenoğuz / Doğuş University
Contents: Special Relativity, Lorentz transformations, four-vectors,
natural units, collisions, Klein-Gordon equation, Dirac equation
Textbook: Introduction to Elementary Particles, Griffiths
Supplementary textbooks:
Modern Elementary Particle Physics, Kane
Quantum Field Theory, Ryder
Introducing Einstein’s Relativity, d’Inverno
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vBC
Special Relativity (Einstein 1905)
1. The principle of relativity
(The same laws apply in all inertial reference frames)
2. The universal speed of light
(The speed of light in vacuum (c) is the same in all inertial ref. frames)
C
A vAB
B
A vAB
vBC
C
B
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Consequences of Special Relativity
i. Relativity of simultaneity
Two events that are simultaneous in S are in general
not simultaneous in S´
ii. Lorentz contraction
Moving objects are shortened by a factor
iii. Time dilation
Moving clocks run slow by the same factor
at rest: = 2 x 10-6 s
moving at v = 0.9994c:
= = 58 x 10-6 s
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Galilean Transformations
Lorentz Transformations
S
x
y
z
O
S´
x´
y´
z´
O´
E(x,y,z,t)
vvt
HMW 1: Verify relativity of simultaneity, time dilation, length contraction,
and velocity addition rule, using Lorentz transformations.
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Position-time four vector: x , =0,1,2,3
x0=ct, x1=x, x2=y, x3=z
Lorentz Transformations
, where
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Lorentz Transformations:
HMW 2: Rapidity
a) Show that
b) Show that
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Rotation:
I is invariant under : same in any inertial system
HMW 3: Verify this.
Lorentz Transformation:
is invariant under R
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where are the components of the Metric:
Given any two four-vectors, the scalar product
is invariant.
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“Natural” Units for high energy physics:
HMW 4: a) Show that 200 MeV fm 1, where 1 fm = 10-15 m.
b) Show that mass of a proton (1.7x10-27 kg) is 1 GeV.
(1 eV = 1.6x10-19 J)
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Relativistic Energy and Momentum
where
for ,
Relativistic Kinetic Energy:
Energy-momentum four vector:
invariant:
Massless particle:
(for a massless particle, )11
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Relativistic Collisions
Total energy and momentum is conserved.
If collision is elastic, T and therefore m is also conserved ( )
Conserved: Same before and after the collision.
Invariant: Same in any inertial reference frame.
conserved: Yes, invariant: No
conserved: No, invariant: Yes
conserved: Yes, invariant: Yes
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Ex. A pion at rest decays into muon and a neutrino
On the average, how far would the muon travel in vacuum
before decaying?
Energy-momentum conservation:
Solve for and square both sides:
since is massless and total p = 0
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Ex. A proton strikes another proton at rest, creating a proton-antiproton pair.
What is the threshold energy for this reaction?
LAB Frame CM Frame
beforeafter
before after
before, LAB: after, CM:
is both conserved and invariant:
Fixed target: threshold T = 6m
Colliding beams: threshold T = m
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HMW 5:
a)
b)
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Single particle wave equations:
Schrödinger equation for a free particle
non-relativistic energy-momentum relation:
probability density:
probability current:
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Klein-Gordon equation
relativistic energy-momentum relation:
or
probability density and current:
: negative probability?
Klein-Gordon equation not a single particle wave equation
it is the equation for a quantum field whose quanta are scalar (spin 0) particles:
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Dirac Equation: • first order
• wave eq. for spin ½ particles
Since ,
, ,
: Dirac spinor
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Dirac Matrices
Probability current for Dirac equation:
multiply by
where (adjoint spinor)
no negative
probabilities..
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Negative energies?
Dirac sea
LH hole with –E in Dirac sea corresponds to a RH antiparticle (positron) with E
modern (QFT) interpretation:
no Dirac sea required,
negative energy problem solved upon “second” quantization: [ , ] → { , }
Dirac’s prediction of antiparticles remains valid
(not as holes but as CPT conjugates)
electron+hole→2E
–E
E
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