Takenaka A, Nakamura S, Mitsunaga F, Inoue-Murayama M, Udono ...
Physics with 500 GeV LC Hitoshi Murayama (UC Berkeley) LC Retreat Santa Cruz, June 27, 2002.
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Transcript of Physics with 500 GeV LC Hitoshi Murayama (UC Berkeley) LC Retreat Santa Cruz, June 27, 2002.
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Physics with 500 GeV LC
Hitoshi Murayama (UC Berkeley)
LC Retreat
Santa Cruz, June 27, 2002
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We are interested inthings we don’t see
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Energy budget of Universe
• Stars and galaxies are only 0.1%• Neutrinos are ~0.1–10%• Rest of ordinary matter (electrons and protons) are
~5%• Dark Matter ~25%• Dark Energy ~70%• Anti-Matter 0%• Higgs boson ~1062%??
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The Cosmic Questions
• What is Dark Matter?
• What is Dark Energy?
• How much is Neutrino component?
• Is Higgs Boson really there?
• Where did Anti-Matter go?
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Synergy at TeV scale
• Dark Matter
• Fermi (Higgs) scalev~250GeV
• Dark Energy~(2meV)4 vs (TeV)2/MPl~0.5meV
• Neutrino (m2
LMA)1/2~7meV vs (TeV)2/MPl~0.5meV TeV-scale physics likely to be rich
ΩM =0.756(n+1)xf
n+1
g1/2σannMPl3
3s08πH0
2 ≈α2 /(TeV)2
σann
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Fermi’s dream era
• Fermi formulated the first theory of weak force (1933)
• Knew the required energy to study the problem: ~TeV
• We are finally getting there!
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Higgs Boson
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Mystery of the “weak force”
• Gravity pulls two massive bodies (long-ranged)
• Electric force repels two like charges (long-ranged)
• “Weak force” pulls protons and electrons (short-ranged) acts only over 10–16 cm [need it for the Sun to burn!]
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Something is in the Universe
• There is something filling our Universe
• It doesn’t disturb gravity or electric force
• It does disturb weak force and make it short-ranged
• What is it??
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Like a superconductor
• In a superconductor, magnetic field gets repelled (Meißner effect), but penetrates only over “penetration length”
Magnetic field is short-ranged!
Imagine a physicist living in a superconductor
• Finally figured:– magnetic filed must be long-ranged
– there must be mysterious charge-two condensate in his “Universe”
– But doesn’t know what the condensate is, nor why it condenses
– Doesn’t have enough energy to break up Cooper pairs
That’s the stage where we are!
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Higgs Boson is Most Likely “Just Around the Corner”
• All current data combined, sensitive to quantum effects of the Higgs boson
mH<196GeV (95%CL)(LEPEWWG Winter 2002)
• Tevatron at Fermilab, IL, has chance to discover Higgs boson by 2008
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Higgs Boson at LHC
• LHC would discovery Standard Model Higgs boson of any mass within 3 years! (2011?)
• Does it settle the issue? I’m afraid not.
• Suppose H discovered, cross checked by ttH final state
• Technipion? Scalar or pseudo-scalar? Does it couple to W/Z?
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Questions to be answered
• Is the particle discovered really the Higgs boson?– Is it really responsible for particle masses?– Does this have the right quantum number 0+?– Is it condensed in the Universe?
• Prove it is the “Origin of Mass”– Spin/Parity – Couplings– Vacuum expectation value– Branching Ratios
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Higgs Boson at LC
• Angular distribution in e+e–ZX depends on X=h, A, V
Is it a 0+ boson?
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Higgs Boson at LC
• Branching Fractions test the relation coupling mass
proves that Higgs Boson is the “Origin of Mass”(Battaglia)
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Higgs Boson at LC
• ZH final state
• ALR proves it is due to s-channel Z-exchange
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Higgs Boson at LC
• ZH final state
• ALR proves it is due to s-channel Z-exchange
• We know Z:gauge boson, H: scalar boson only two vertices
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Higgs Boson at LC
• ZH final state
• ALR proves it is due to s-channel Z-exchange
• We know Z:gauge boson, H: scalar boson only two vertices
• Need a VEV to get ZZH vertex
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Higgs Boson at LC
• ZH final state
• ALR proves it is due to s-channel Z-exchange
• We know Z:gauge boson, H: scalar boson only two vertices
• Need a VEV to get ZZH vertex proves it is the origin of mZ
HM, LBNL-38891
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Absolute confidence is crucialfor a major discovery
• “New York Times” level confidence“Origin of Mass Uncovered”
still a long way to• “Halliday-Resnick” level confidence
“We have learned that masses of all elementary particles originate in the condensate of so-called Higgs boson of mass 124GeV/c2.”
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Post-Higgs Problem
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Post-Higgs Problem
• We see “what” is condensed
• But we still don’t know “why”
• Two problems:– Why anything is condensed at all
– Why is the scale of condensation ~TeV<<MPl
• Explanation likely to be at ~TeV scale because Higgs self-energy mH
2~2
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Three Directions
• History repeats itself– Crisis with electron solved by anti-matter– Double #particles again supersymmetry
• Learn from Cooper pairs– Cooper pairs composite made of two electrons– Higgs boson may be fermion-pair composite
technicolor
• Physics ends at TeV– Ultimate scale of physics: quantum gravity– May have quantum gravity at TeV
hidden dimensions
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Task
• Find physics responsible for condensation
• We can eliminate many possibilities at LHC
• But new interpretations necessarily emerge
• Elucidate what that physics is– Reconstruct the Lagrangian from measurements
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Many theories look alike
Supersymmetry– Missing energy, high
pT jets, leptons, b, t,
Fourth generation– Missing energy, high
pT jets, leptons, b, t,
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Many theories look alike
• Pseudo-Nambu-Goldstone bosons in technicolor• Universal Extra Dimensions (Cheng, Matchev, Schmaltz)
– Lightest Kaluza-Klein states ~ LSP
• If models well-defined and only a few parameters, LHC can exclude many interpretations of data
• Race will be on: – theorists coming up with new interpretations– experimentalists excluding new interpretations
A loooong process of elimination• Crucial information is in details
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LC is good at details
Supersymmetry Fourth generation
Ejj distribution tells if mB 0Cross sections vs polarization determine quantum numbers
~
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Supersymmetry at LC
• Discovery at Tevatron Run II or LHC
• Test they are really superpartners– Spins differ by 1/2– Same
SU(3)SU(2)U(1) quantum numbers
– Supersymmetric couplings
Spin 0?
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Supersymmetry at LC
Is gaugino coupling = gauge coupling?
Mass Measurement
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Superpartners as probe
• Most exciting thing about superpartners beyond existence:
They carry information of small-distance physics to something we can measure
“Are forces unified?”
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Hidden Dimensions
Randall-Sundrum scenario with warped extra 1D
TeV-scale KK gravitons
determine the shape of the hidden dimension
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Produce Dark Matter
• Dark Matter likely to be TeV-scale electrically neutral weakly interacting particle (e.g., LSP, Lightest KK)
• With LC, measure its mass, couplings• Can calculate its cosmic abundance• If it agrees with cosmological observation,
we understand Universe back to 10–12 sec after the Big Bang
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Conclusion
• Physics at TeV scale likely to be rich
• To fully understand it, we will likely need a lot of detailed information
• LC will study new particles one by one
reconstruct the fundamental Lagrangian
• Then we would like to move on further with absolute confidence