The Higgs Boson The search for the God Particle. The Standard Model Most successful description of...
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The Higgs BosonThe search for the God
Particle
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The Standard Model
• Most successful description of fundamental particles and forces
• Provides a theoretical framework incorporating all known particles and forces (except gravity)
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Forces
• Electromagnetic
• Strong
• Weak
• Gravity (not actually included in the standard model)
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Quantum Field Theory (QFT)
• A theory of fields that is consistent with quantum mechanics
• Utilizes gauge particles which travel back and forth between charged particles (in the case of the electromagnetic field), and are the origin of force
• Electroweak theory
– Incorporates Quantum ElectroDynamics (QED) and theory of weak interactions
• Quantum ChromoDynamics (QCD) is the QFT for color force
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Fundamental Particles
• 6 Quarks:
– top, bottom, charmed, strange, up, down
• 6 Leptons:
– electron, muon, tau, and their neutrinos
• 6 bosons
– Electromagnetic force: photon
– Strong force: gluon
– Weak force: W+, W-, Z
– Gravitational: graviton
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Shortcomings of the Standard Model
• Doesn’t incorporate gravity
• Doesn’t explain the masses of the particles
– Why should something as simple as a quark even have a mass
– Why do they have different masses
– For instance, photons are massless, but the W and Z particles are huge
– Why there is such a range of masses
• Doesn’t explain the origin of mass
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Criteria for a New Theory
• Explain the symmetry breaking between electromagnetism and the weak force
• Describe a mechanism for imparting mass to particles
• Cannot introduce any new physics
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Enter the Higgs Field
• There is a Higgs field that fills the universe (a scalar field)
• Any particles that pass through this field distort it
• This distortion slows the particles down, preventing them from travelling at the speed of light
• This is, in fact, the particle’s mass
• Analog to physics in solids – an electron moving through a positively charged crystal lattice acts as if it is 40 times more massive
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The Higgs Boson
• Since the Higgs field is a quantum field, it has it’s own carrier particle, the Higgs boson
• The Higgs has spin 0, because the Higgs field is a scalar field
• If it had a spin, there would be a preferred direction, which there is not
• In fact, the Higgs boson is the analog of the phonon in crystals; it is a perturbation in the field itself, without a particle
• Might be a top – antitop combination
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The Higgs Boson (cont.)
• Causes W and Z bosons to be massive, which limits the range of the weak force
• Photons are not affected, so they are massless, travel at the speed of light, and have an infinite range
• In other words, the symmetry of the electroweak force is broken
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The Mass of the Higgs Boson
• The mass of the Higgs particle is important because different theories predict different masses
• Experiments at the LEP showed that the mass of the Higgs must be > 113 GeV
• Supersymmetric: < 130
• Standard model: < 170
• Technicolor: > 160
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Finding the Higgs• Basically, you accelerate protons and
antiprotons in opposite directions
• When they come together, they annihilate in a burst of energy
• This energy forms a Higgs particle, which then decays
• The decay particles are picked up by a detector, and their velocities are measured
• Using conservation of momentum and energy, physicists work backwards to find the mass of the Higgs
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Decay Process for the Higgs
• Higgs is heavy, so it can decay into almost anything
• Branching ratios are strongly dependent on the Higgs mass, thus making a variety of tagging and detection algorithms necessary
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Summary of Decays Available
Indistinguishable jets produced, but important for Higgs production
Decay into gluon pairGluon Decay
Weak branching ratio but clean signature
Decay into photon through higher order processes
Two Photon Decay
Coupling strongest to top quark (unless mH<2MT)
Decay into any fermion
Fermionic Decay
Decay into Z or W boson
Vector Boson Decay
DiagramRemarksDescriptionHiggs Decay Process
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History of the Higgs
• Peter Higgs proposed the idea in 1964
• The SSC was built, in large part, to look for the Higgs. However, the project was terminated in 1993
• In 2000, the LEP collider was scheduled for shutdown
• However, the physicists decided to max the collider in a final bid to find the Higgs
• They found 5 possible appearances, but the collider was shut down without the Higgs having been found
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History of the Higgs (Cont.)
• It was hoped that Fermilab would be able to detect the Higgs, but that turned out to not be the case
• LHC at CERN should be finished in 2007 and should be able to detect it
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Conclusion
• The Higgs boson gives particles mass• To be consistent, the standard model requires the
existence of the Higgs boson• The mass of the Higgs boson will pick out the most
valid theory• Finding the Higgs boson is not trivial. Further
searches will increase the precision of current measured values, and provide a better estimate for the Higgs mass
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Conclusion (Cont.)
• If and when the Higgs is discovered, it will be one of the most important discoveries in particle physics
• Finding the Higgs boson will further the longer-term goal of unifying all forces
• There are other theories to explain how particles get their mass - proving that the Higgs boson does not exist would be just as scientifically valuable as proving that it does
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Higgs Himself
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Dismantling the LEP
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Computer reconstruction of a possible Higgs decay
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Part of the LHC (under construction)
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Bibliography
• The God Particle: If the Universe is the Answer, What Is the Question?, by Leon Lederman, Dick Teresi, Houghton Mifflin Co; (January 1993)
• http://www.wired.com/wired/archive/12.04/grid_pr.html• htttp://physicsweb.org/article/world/12/12/12/1• htttp://physicsweb.org/article/news/4/9/2• htttp://physicsweb.org/article/world/12/12/12/1• http://en.wikipedia.org/wiki/Higgs_boson• http://phy.uct.ac.za/courses/phy400w/particle/higgs1.htm• http://phy.uct.ac.za/courses/phy400w/particle/higgs2.htm• http://phy.uct.ac.za/courses/phy400w/particle/higgs3.htm• http://phy.uct.ac.za/courses/phy400w/particle/higgs4.htm• http://phy.uct.ac.za/courses/phy400w/particle/higgs5.htm