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Transcript of Cosmology/DM - II Konstantin Matchev. Outline of the lectures All lecture materials are on the web:...
![Page 1: Cosmology/DM - II Konstantin Matchev. Outline of the lectures All lecture materials are on the web: matchev/PiTP2007 Yesterday:](https://reader036.fdocuments.in/reader036/viewer/2022062321/56649e6a5503460f94b675d8/html5/thumbnails/1.jpg)
Cosmology/DM - IIKonstantin Matchev
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Outline of the lectures• All lecture materials are on the web:
http://www.phys.ufl.edu/~matchev/PiTP2007 • Yesterday: became familiar with MicrOMEGAs. Forgot to
mention: – Bug in linking of libraries in case of new models– MicrOMEGAs can compute indirect detection yields– HW from Simulation Practicum at PiTP 2005 still applicable
• Earlier today: discussed several new physics models and their respective dark matter candidates– concentrate on WIMPs in SUSY and UED
• Now: discuss how collider and astro experiments can– discriminate between alternative models– determine DM properties
• Homework exercises throughout today’s lectures
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Large Hadron Collider
ATLAS
CMSJura
CERN
Ebunch = 44 kJ
ECM = 14 TeV
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How do we know LHC will find anything new or interesting?
• The X7 argument • Where is the Higgs?
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Avenues for WIMP detection
• Potentially observable signals at colliders.
SM
SM
SM
SM
• Potentially observable signals of direct DM detection.
• Potentially observable signals of indirect DM detection.
SM
SM
SM
SM
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Dark Matter at colliders: model-independent approach
• Relate the WIMP annihilation rate in the early Universe to the WIMP production rate at colliders. Detailed balancing:
• Predict the WIMP pair production rate
• Known parameters• Unknown parameters• Not an observable signature! What if ?
SM
SM
SM
SM
Birkedal,KM,Perelstein 2005
sSXtot ,, 0,,, JSMi
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Detector Schematics
Note the absence of a “Missing energy calorimeter”
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DM production at colliders
• In order to observe the missing energy, the DM particles must recoil against something visible
• If some sort of ISR (initial state radiation), model-independent prediction still possible,using soft/collinear factorization– Very challenging experimental signature,
does not seem to work
• Give up model-independence, look for production of the other, heavier states in the model – At LHC: typically the colored superpartners/KK partners– Problems:
• Proliferation of relevant model parameters• Complicated event topologies • Combinatorics confusion• Missing energy is challenging
Birkedal,KM,Perelstein 2005
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SUSY Signature: MET + Jets + …
• Squark gluino production
• Full Geant4 Detector Simulation
• 6 hard jets• leptons• 2 LSPs + 4 ’s
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MET Cleaning from Tevatron• MET is very powerful
SUSY discriminator• Difficult part is to convince
yourself that there is a real excess!
• Tevatron teaches us • MET is not easily
understood!
• Non-collisional backgrounds• Beam halo• Cosmic muons
• Detector Effects• Instrumental Noise• Hot/dead channels (DQM) D. Tsybychev, Fermilab-thesis-2004-58
Run IIV. Shary CALOR04
Run IIjunk
jets
e/
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Jet/MET Reconstruction Performance
• Jets• Low luminosity Pileup included• ET Resolution
• Stochastic term 125% / √ET
• Constant term 3%• Angular Resolution
• High ET Jets: better than calo cell size( x = 0.087 x 0.087)
• Missing Transverse Energy• Low luminosity Pileup included• <MET> from QCD
• Stochastic term 123% / √ET
1700 GeV ET 700 GeV PT dijets 50 GeV observed MET
• MET Resolution• Low MET : approaches Jet size• High MET : approaches calo cell size
QCD
MET
Jets
CMS
CMS
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Testing dark matter at colliders
• OK, so we see a missing energy signal at the LHC. What next? Is it due to dark matter?
• Look for confirmation from dark matter direct detection experiments. Colliders and astroparticle experiments test very different timescales. If signal seen in both, compare– Mass– Interaction strength
• Is it a thermal relic? Test the WIMP hypothesis:– Assume a model framework (discriminate look-alikes)– Measure the model parameters– Constrain the annihilation cross-section in the early Universe.
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Supersymmetry or Extra Dimensions?m
ass
•Spins differ by 1/2 same as SM same as SM
•Higher levels no yes no
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SUSY or UED? Part I
• Look for level 2 KK modes of UED
Datta,Kong,KM 2005 Datta,Kong,KM 2005
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SUSY or UED? Part II
SUSY
q 02
~l
~
01
~UED
q near
l
farl1Q1Z
1l
1
• Can we measure the spins? Very difficult
• Recently, several proposed methods to measure spins and thus discriminate SUSY from UED
– Make assumptions what you know and can do– Propose a measurement– Interpret
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Measuring spins at a lepton collider
• Find ~16 bln dollars, build a 3 TeV CLIC
• Study the processes shown in UED or SUSY
• Compare the angular distributions of the muons in the Lab
• Find out if UED or SUSY
Battaglia,Datta,DeRoeck,Kong,KM 2005
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Barr Asymmetry
ll
llA
•Find the right jet among the 8-10 jets in the event (all of them look very similar)•Assume you know the masses of all new particles•Plot the asymmetry A+-
•Find out if UED or SUSY
Barr 2004
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Pooh, is this Piglet flying like a kite, or is it a kite that looks like Piglet?
Pooh, is this SUSY that looks like UED, or is it
UED looking like SUSY?
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PRECISION SUSY @ LHC
• Next, measure the model parameters• Only mass differences directly
measurable @ LHC: need to overconstrain the system
• Couplings are even more difficult• The “inverse problem” is tough!
Weiglein
et al. (2004)
HW
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Contributions to NeutralinoWIMP Annihilation
Jungman, Kamionkowski, Griest (1995)
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What do we know?
• Winning entry in the 2003 annual “Foot in mouth” award by the Plain English Campaign:
• “As we know, there are known knowns; there are things we
know we know.”
• “We also know there are known unknowns; that is to say we know there are some things we do not know.”
• “But there are also unknown unknowns - the ones we don't know we don't know.”
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Testing the WIMP Hypothesis
• SUSY parameters– Relevant for DM– Irrelevant for DM
• … but also– Measured*– Unknown
• Consider all possible allowed variations of the “unknowns”
Birkedal,KM 2004
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How well can one do?
• LHC/ILC determination of relic densities has now been studied by many groups.
Allanach, Belanger, Boudjema, Pukhov (2004)
Moroi, Shimizu, Yotsuyanagi (2005)
Baltz, Battaglia, Peskin, Wizansky (2006)
• Bottom line: LHC results are not always good, but ILC removes degeneracies Baltz, Battaglia, Peskin, Wizansky (2006)
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IDENTIFYING DARK MATTERAre hep and cosmo identical?
Congratulations! You’ve
discovered the identity of dark
matter and extended our
understanding of the Universe to T = 10 GeV, t = 1 ns (Cf. BBN at T = 1 MeV, t = 1 s)
Yes
Yes
Yes
Calculate the new
hep
Can you discover another particle
that contributes to DM?
Which is bigger?
No
hepcosmo
Does it account for the rest of
DM?
YesNo
Did you make a
mistake?
Does itdecay?
Can you identify a source of entropy
production?
NoYes
No
No
Yes
Can this be resolved with some wacky cosmology?
Yes
No
No
Are you sure?
Yes
Think about the cosmological
constant problem
No
Courtesy of J.Feng, inspired by my T-shirt, IAS Princeton 2005
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Discrepancies are interesting!
• Several DM species?• Kination domination
Chung,Everett,Kong,KM 2007
mohep cosmohep cos• SuperWIMPS
– gravitino, KK graviton• SuperWIMPS inherit the WIMP
miracle, but relic abundance is reduced by
Salati 2002
MeVT 1
Feng,Rajaraman,Takayama 2003
SM
NLSP
G ̃
WIMP
SuperWIMP
M
M
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Avenues for WIMP detection
• Potentially observable signals at colliders.
SM
SM
SM
SM
• Potentially observable signals of direct DM detection.
• Potentially observable signals of indirect DM detection.
SM
SM
SM
SM
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• Expected signal rates all over the place
• (Coherent) spin-independent scattering most promising for most WIMP candidates
• Theorists: q scatteringExperimentalists:
nucleus scatteringCompromise: p scattering
• MicrOMEGAs does not compute this, but DarkSUSY can.
Direct Detection
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Indirect Detection
Dark Matter Madlibs!
Dark matter annihilates in ________________ to a place
__________ , which are detected by _____________ . particles an experiment
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HESSCOLLIDERS ELIMINATE PARTICLE PHYSICS UNCERTAINTIES,
ALLOW ONE TO PROBE ASTROPHYSICAL DISTRIBUTIONS
ParticlePhysics
Astro-Physics
Very sensitive to halo profiles near the galactic center
Dark Matter annihilates in the galactic center to a place
photons , which are detected by GLAST, HESS, … . some particles an experiment
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Dark Matter annihilates in the halo to a place
positrons , which are detected by AMS on the ISS . some particles an experiment
Ch
eng
,Fen
g,K
M 2002
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Dark Matter annihilates in the center of the Sun to a place
neutrinos , which are detected by AMANDA, IceCube . some particles an experiment
(km -2 yr
-1) AM
AN
DA
in the Antarctic Ice
Fen
g,K
M,W
ilczek 2000
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Final project
• Implement your (advisor’s) favorite dark matter model as CalcHEP model files
• Use MicrOMEGAs to calculate the relic density• Use MicrOMEGAs to estimate the indirect
detection rates• Use CalcHEP to estimate the size of the
collider signals at LHC/ILC