LHC Prospects on Higgs and physics beyond the Standard Model (SUSY)
Beyond the Standard Model at LHC
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Transcript of Beyond the Standard Model at LHC
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LHC Physics
Luca ListaINFN - Napoli
Beyond the Standard Modelat LHC
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Why physics beyond the SM• The Standard Model describes
fundamental particles and interaction• The SM is a very well verified theory• But it does not describe all known
phenomena, so can’t be considered a “theory of everything”
• Does not include:– Gravity– Dark matter
LHC Physics
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Gravity• No consistent (=renormalizable) quantum
description of Einstein’s General Relativity equations– Graviton (spin=2)?
• Scale problem: GF/GN 10∼ 32, or, in term of mass scale: mPlank/mEWK 10∼ 16
• Why so many orders of magnitude?• Underlying physics reason, or “Anthropic
principle”?• Hides higher space dimensionality?LHC Physics
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Rotational curve of galaxy M33
Dark matter• Ordinary matter constitutes
only 5% of the universe content– A small fraction of it makes
stars and planets • A much larger “dark” fraction
manifests its presence only via its gravitational effects– Galactic rotation curves
• Dark energy is needed in the universe to explain the expansion acceleration
LHC Physics
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Theoretical arguments• Theoretical arguments suggest physics beyond the SM to
guarantee the “hierarchy” of Higgs mass corrections– ∆mH
2 ≈ k Λ2
• k is a numerical constant– Computable from Feynman loops
• Λ is a cutoff scale (where new physics occurs, could be the Plank scale)
• Higgs physics mass very different from the SM mass parameter via quantum loop corrections– “Instability” w.r.t. new physics scale – Requires fine tuning of many orders of magnitude
• New particles could run in the loop and provide the proper cancelation without ad hoc fine tuning– Supersymmetry?
LHC Physics
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Super symmetry• New scalar partners can enter in the loop• Quantum corrections have opposite sign and cancel
perfectly, solvingthe hierarchy problem
• The particle spectrum wouldbe duplicated
• As we don’t see s-partnerswith the same mass as ordinary particles, SuSy must be broken
• Super symmetry has an elegant mathematical formulation and also arises from string-inspired models
LHC Physics
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Susy mathematical model• A new symmetry operator transforms fermions to bosons and vice
versa
• Special commutation relations
• Superspace: extensio of 4D space-time with the addition of anticommutating coordinates
• Superfield can be decomposed by series expansion in θ (no more than 2nd degree) into ordinary fermion and boson fields + an auxiliary field F (Wess-Zumino)
LHC Physics
Q = translationin the superspace!
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Susy phenomenology• R-parity conservation?
– R = (−1)3(B - L) + 2S, R=1 for ordinary particles, R=−1 for Susy partners
– Violation of R-parity would result in most of the models in short proton lifetime
– The lightest particle with R=−1 (LSP) can’t decay (DM candidate!)
• Two (or more…) Higgs doublets (MSSM)– a single doublet can’t form Susy-invariant terms
– Ratio of v.e.v: , also related to mt/mb
– Higgs bosons mass pattern predicted at tree level (mh0 < mZ!), but loop corrections may change the pattern (up to 135 GeV still allowed)
LHC Physics
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Susy and GUT• Susy could be an intermediate step toward a grand
unification• Adding more degrees of freedom would allow the
running couplings to meet at a common (GUT) scale
LHC Physics
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SuSy zoology• Higgsinos and gauginos mix states introducing EWK breaking into two
charginos and four neutralinos• If the LSP is the lightest neutralino, would be a good DM candidate
– Some models also propose the gravitino as LSP
LHC Physics
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Susy mass spectrum• Assuming all mass are degenerate at a
given (large) scale, the mass parameter pattern may become simplified– mSUGRA (supergravity-inspired):
• m0: scalar mass• m1/2: gaugino mass• A0: trilinear coupling (higgs-sfermion-sfermion),
soft-breaking– Other schemes have also been proposed
LHC Physics
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Possible mass spectra• Mass spectra are not predicted by theory, depend on the model
LHC Physics
mSUGRA
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Experimental signatures• Susy particles produced in pair (R-parity
conservation)• Decay chains via s-particles + ordinaly
particles• LSP escape undetected ( MET!)• Signatures with leptons are easier to
detect
LHC Physics
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Search for Susy• So far no evidence for Susy particles
• Limits have been set in the m0/m1/2 plane
• m1/2
LHC Physics
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Easy case: multileptons• Search for at least three leptons (e, μ, τ) plus MET or transverse
hadronic activity HT = sum of transverse jet ET
LHC Physics
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No evidence for new signal
• Limits can be set in the m0/m1/2 plane
LHC Physics
ll-μ
ll-e
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αT variable (multijet)• In case of a two-jet event:
• Otherwise: cluster jets in order to minimize the ET difference of the two
LHC Physics
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Razor variable (multijet)• Heavy LSP + jets• Cluster entire event in
two “megajets”• Exploits kinematics
differences with properboost (CMS-SUS-11-008)
LHC Physics
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JBZ• Susy search in Z+jets+MET, e.g.:
LHC Physics
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Stop search• Stop could be the lightest squark due to large mixing effect in the 3rd
generation• Stop can be produced in pairs, decaying in a tt pair plus neutralinos
(LSP) with a sizeable cross section
LHC Physics
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Direct searches• Direct limits on stop
LHC Physics
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Sparticle mass limits (CMS)• Exact values depend on various assumptions
LHC Physics
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Sparticle mass limits (ATLAS)
LHC Physics
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Susy summary• No evidence of Susy particles so far• No hint of either a second neutral Higgs
or charged Higgs• If Susy exists:
– either it hides on some special corner of its parameters “phase space”
– Or it should be less trivial than the assumed MSSM/mSUGRA
LHC Physics
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Extra dimensions• During ’20s Kaluza and Klein proposed a model to unify gravity and
elecromagnetism by adding fifth space dimension
• If the fifth dimension is “compactified”, it would no longer be visibiel• Byproduct of compactification: the electric charge is quantified!• The model was abandoned because of difficulties with quantum
description, now revisited in more complex contexts
€
ˆ g ˆ μ ˆ ν =gμν −Aμ
−Aν − 1φ
+ A2
⎛
⎝ ⎜ ⎜
⎞
⎠ ⎟ ⎟
4x4: Einstein’s equations 4x1: Maxwell’s equations
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Luca Lista 26La Fisica a LHC
Extra dimensions• Particles excitation by “curling”
around the compactified dimension give raise to a spectrum of new particles
• Search for heavy resonances decaying into pairs of leptons or jets
• mn2 = m0
2 + n2/R2 • DM candidates could be
excitations of a standard particle?
Z qq
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Search for dijet/dilepton res.
La Fisica a LHC
• Nothing found at LHC so far
• Questi modello richiedono la presenza di nuove dimensioni spazio-temporali, e non sono ad oggi sufficientemente predittivi
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Search for heavy W’
LHC Physics
Also searched for in W’tb,Similar to SM single-top productionin the s channel
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Extra dimensions and gravity• Extra dimension could also explain the hierarchy of
plank scale vs EWK scale• Gravity weaker because it propagates in more
dimensions• EWK world = a brane in a higher dimensional space
(Arkani-Hamed, Dimopolous, and Dvali (ADD))– Gauss law: Planck scale of gravity in four dimensions (MPl)
related to a fundamental Planck scale in 4 + nED dimensions (MD) according to the following relation: MPl
2 ≈ MD2+nED× RnED
• Randall-Sundrum (RS) model (5D) predicts a detectable graviton KK excitation with several possible decays (e.g.: G* ZZ, ff, …)
LHC Physics
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RS graviton* (G*ZZqqνν)• Signal = excess peaking at Z mass (jj) and G*
mass (ll + MET)
LHC Physics
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Black holes• BH/string balls may be produced, according to some models, at LHC• Evaporation (Hawking’s radiation) results in emission of SM particle
with a “democratic” distribution• Signature: events with jets and leptons• No signal found, limits set in the parameter space
LHC Physics
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CMS: ST• ST = scalar sum of pT of
individual selected objects:jets, e, γ, μ
LHC Physics
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Leptoquarks• GUT models (SU(5), SO(10)) and technicolor-composite models
predict new bosons that couple to both leptons and quarks• Produced in pairs via gg fusion or qq annihilation• Search performed in the 3rd generation: LQ τb (one tau decys
to e or μ, the other to hadrons)
LHC Physics
B(L
Qτ
b)
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Exotica mass limits (CMS)
LHC Physics
CMS, S. Rahatlou
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Summary
LHC Physics CMS, S. Rahatlou
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Exotica mass limits (ATLAS)
LHC Physics
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Conclusions• No hint of new physics found at LHC• Simple Susy model excluded in a large
fraction of the parameter space– … though “large fraction” depends on a
“metrics” of the parameter space• The search goes on, improvements are
expected with larger data samples and, in next future, with the increase in center-of-mass energy
LHC Physics
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References• A Supersymmetry primer, S. P. Martin,
http://arxiv.org/abs/hep-ph/9709356
LHC Physics