discovery of the higgs boson - wayne state universityglawes/higgs.pdfdiscovery of the higgs boson...
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Discovery of the Higgs Boson
Gavin Lawes Department of Physics and Astronomy
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Includes slides and images from:
Robert Harr, Paul Karchin, and Sean Gavin (Wayne State University)
LHC (CMS Collaboration)
Note: There is a lot more information about the LHC and the Higgs Boson at home.web.cern.ch
Acknowledgements
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What do we know about matter?
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Mass.
Spin. (Zero spin particles are bosons, spin ½ particles are fermions)
Electric charge.
Color charge.
(Other)
What properties define matter particles?
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Particles in the Standard model
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Photon γ (massless, no charge)
Electron e (massive, charged)
Muon µ (massive, charged)
Proton p (massive, charged)
Gluon g (massless, “color charge”)
Higgs H (massive, ?????)
Particle crib sheet
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Particles exert forces on one another. These forces are transmitted by gauge bosons.
Electromagnetic force (carried by photons [1])
Strong nuclear force (carried by gluons [8])
Weak nuclear force (carried by W and Z particles [3])
What are gauge bosons?
e- e- γ
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Gauge bosons reflect underlying symmetries of the universe.
The number of gauge bosons for each force is the number of generators for each symmetry group (e.g. the symmetry group for the strong nuclear force has 8 generators, hence 8 gluons).
These gauge bosons should be massless.
However, the W+, W-, and Z bosons (which mediate the weak nuclear force) are massive.
Where do gauge bosons come from?
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F = ma
F = GMm
r2
Classical mass
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Rab �12Rgab =
8⇡G
c4Tab
E = mc2
Mass in Relativity (special and general)
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Binding Energy
Proton mass, mP=1.6726x10-27 kg Neutron mass, mN=1.6749x10-27 kg
4He mass=6.6446x10-27 kg
Less than 2mP+2mN
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Dynamics 98%
Quarks
Proton mass
The mass of a proton is much larger than the mass of the quarks that make up the proton.
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The Heisenberg Uncertainty Principle states:
ΔEΔt≥h/2π with the Planck constant h=6.636x10-34 m2 kg/s
This means that particles are popping in and out of existence continuously (so the vacuum is actually fluctuating).
The probability distribution of particles everywhere in space is called a field.
Quantum fluctuations
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In 1964, 6 authors in 3 different papers (Brout and Englert, Higgs, and Guralnik, Hagen, and Kibble) proposed a mechanism for making the weak force carriers massive.
Depended on having these gauge bosons couple to something called the Higgs field, which has a fourfold symmetry.
When the vacuum fluctuations of the Higgs field become non-zero, the symmetry is broken, which makes the W+, W-, and Z bosons massive and leaves a single massive particle called the Higgs boson.
Other particles (electrons, quarks, etc) can also acquire mass by coupling to the Higgs field.
Higgs Mechanism
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Build a giant particle collider. Fortunately, there was already a giant tunnel at CERN.
27 km ring filled with superconducting magnets cooled to just above absolute zero.
Large Hadron Collider (LHC) costs about $10B over 20 years. Note: Hadrons are particles containing quarks.
ATLAS and CMS projects involve over 3,000 physicists
How can we find the Higgs boson?
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H γγ
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Same event, different angle
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H ZZ µµµµ
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H ZZ eeee
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H γγ
ATLAS
CMS
Even
ts /
2 G
eV
2000
4000
6000
8000
10000
ATLAS PreliminaryaaAH
-1Ldt = 4.8 fb0 = 7 TeV, s-1Ldt = 20.7 fb0 = 8 TeV, s
Selected diphoton sampleData 2011+2012
=126.8 GeV)H
Sig+Bkg Fit (mBkg (4th order polynomial)
[GeV]aam100 110 120 130 140 150 160Ev
ents
- Fi
tted
bkg
-200-100
0100200300400500
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Two different experiments (ATLAS and CMS) find a new particle with a mass of 125.6 GeV/c2.
This is a spin 0 boson, with properties consistent with the Standard Model Higgs boson.
The existence of this particle confirms the point of view that mass is an acquired property (through coupling to the Higgs field) and not an intrinsic property of particles.
Higgs boson summary
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Want to investigate the properties of the Higgs boson in more detail (e.g. decay paths, coupling to other particles, etc).
Are there other Higgs-like particles? The Standard Model assumes a Higgs field with fourfold symmetry, but there are other models that include more Higgs terms.
Also, other interesting physics problems to study at the LHC.
What next?
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Higgs search concentrated on p-p collisions (total of 6 quarks).
When colliding nuclei (each with hundreds of quarks) together, one can produce a “quark-gluon” plasma, consisting of quarks and gluons mixed together but not bound into hadrons.
Understanding this special state of matter can provide insight into the evolution of the universe, which is believed to have passed through a similar high density/high temperature state nanoseconds after the Big Bang.
Quark-gluon plasma
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The phase diagram of QCD Te
mpe
ratu
re!
baryon density! Neutron stars!
Early universe!
nuclei!nucleon gas!
hadron gas!color !
superconductor!
quark-gluon plasma!Tc!
ρ0!
critical point ?!
vacuum!
CFL!
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Note: 1 TeV=1,000 GeV
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Nuclear Collisions
Note: Spherical nuclei look like pancakes because of relativistic length contraction.
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Hydrodynamics of quark-gluon plasma
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Quark-gluon plasma acts like a perfect liquid
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Viscosity of quark-gluon plasma
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The LHC provides a tool for measuring the properties of fundamental particles at high energies and high densities.
Because of (possible) phase transitions (e.g. weak symmetry breaking, quark-gluon plasma, etc) the properties of particles under these extreme conditions (high density and high energy) may be very different than their properties under ambient conditions (low density and low energy).
This can potentially change our understanding of the fundamental symmetries that govern physical law.
Other new physics
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The end