constraining cmssm dark matter with direct detection results
DESCRIPTION
Constraining CMSSM dark matter with direct detection results. Chris Savage Oskar Klein Centre for Cosmoparticle Physics Stockholm University. with Yashar Akrami, Pat Scott, Jan Conrad & Joakim Edsjö JCAP 1104:012, 2011 [arXiv:1011.4318] JCAP 1107:002,2011 [arXiv:1011.4297]. Overview. - PowerPoint PPT PresentationTRANSCRIPT
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Constraining CMSSM dark matter with direct detection results
Chris SavageOskar Klein Centre for Cosmoparticle Physics
Stockholm University
with Yashar Akrami, Pat Scott, Jan Conrad & Joakim EdsjöJCAP 1104:012, 2011 [arXiv:1011.4318]JCAP 1107:002,2011 [arXiv:1011.4297]
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Overview
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Direct detection signalN, Ek=1..N , Sm, , , ...
WIMP parameters m , SI,p , SD,p , SD,n
Direct detection signalN, Ek=1..N , Sm, , , ...
CMSSM (e.g.) parameters m0, m1/2, A0, tanβ, sign(μ)
WIMP parameters m , SI,p , SD,p , SD,n
Phenomenology Particle (SUSY) TheoryMessy parameter space:
statistical scanning requiredWell behaved parameter space:
analytical methods for constraints?
Pheno space notfully mapped out
by CMSSM
This talkExperimental groupsJi-Haeng Huh talk
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Overview
• How will future direct detection results constrain dark matter from supersymmetric theories?
Realistic reconstruction of dark matterproperties using CMSSM as case study
• Outline Basics: CMSSM, direct detection Analysis: likelihoods, statistics and scanning Phenomenological parameter constraints
• Individual/combined experimental results• Statistical/scanning issues• Halo model, hadronic uncertainties
CMSSM parameter constraints9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
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9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Basics andAnalysis Procedure
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Basics
CMSSM (Constrained Minimal Supersymmetric Standard Model) Simplest SUSY model: four parameters + one sign Complicated parameter space: disconnected regions, sharp peaks,… Results/issues representative of generic SUSY models
(e.g. MSSM-7, BMSSM, NMSSM, etc.)
Direct detection:future ton-scale experiments XENON1T (Xe, neutron odd) [LUX, PANDA-X] CDMS1T (Ge, neutron odd) [EDELWEISS, CRESST?] COUPP1T (CF3I, proton odd)
Not included: CoGeNT, CDEX, DAMA, KIMS -like (higher backgrounds)
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
DetectorWIMP
WIMPScatter
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Analysis
Realistic analysis Typical thresholds and efficiencies Finite energy resolution Backgrounds at target levels (~ 2 events), known spectrum Uncertainties in halo model (density, velocity distribution) Hadronic uncertainties: WIMP-quark → WIMP-nucleon couplings
Likelihoods Direct detection
Nuisance parameters Halo model Nucleon structure SM parameters
…also physicality constraints9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
See paper for technical details
COUPP: no spectrum
Number of events (Poisson) Event energies (spectrum)
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Analysis
Procedure Select CMSSM models that give particular m and SI,p :
benchmark models Generate random experimental results Reconstruct CMSSM model by scanning
over CMSSM parameter space• DarkSUSY + SuperBayeS (MultiNest)
Statistics Scan: Bayesian (SuperBayes) Results: Frequentist or Bayesian
• Profile likelihood (frequentist)• Marginalized PDF (Bayesian)
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
www.darksusy.orgwww.superbayes.org
Most experimental analyses
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Benchmark Models
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
BM1: low m , high SI,p O(100-400) signal events
BM2: low m , low SI,p O(1-3) signal events
BM3: moderate m and SI,p O(20-30) signal events
BM4: high m , high SI,p O(20-30) signal events
+ 2 background events (on average)
Benchmarks still below most recent XENON constraints
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9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Results(Constraints)
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BM1: low m , high SI,p
Spin-independent/dependent cross-sections vs. mass XENON: ~ 200 signal events (~ 7 SD events)
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
true value max likelihood posterior mean
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BM1: low m , high SI,p
Spin-independent/dependent cross-sections vs. mass CDMS: ~ 140 signal events (~ 2 SD events)
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
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BM1: low m , high SI,p
Spin-independent/dependent cross-sections vs. mass COUPP: ~ 390 signal events (~ 120 SD events)
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
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BM1: low m , high SI,p
Spin-dependent couplings: neutron vs. proton an ≈ -ap : CMSSM prediction (not experimental constraint) O(5) [CDMS/XENON] vs. O(100) [COUPP] SD events
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
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BM2: low m , low SI,p
Spin-independent/dependent cross-sections vs. mass ~ 1.4 / 2.1 / 3.0 signal events (~ 0 / 0 / 0.1 SD)
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
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BM3: moderate m and SI,p
Spin-independent/dependent cross-sections vs. mass ~ 17 / 23 / 32 signal events (~ 0 / 0 / 0.6 SD)
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
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BM4: high m , high SI,p
Spin-independent/dependent cross-sections vs. mass ~ 19 / 25 / 36 signal events (~ 0 / 0 / 0.3 SD)
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
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9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Issues
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Issue: sampling/coverage Mass constraint from energy spectrum:
degeneracy for heavy WIMPs
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Phenomenological parameter scanPato et al., PRD 83, 083505 (2011)
BM3
BM4
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Issue: sampling/coverage
• Scan points without DD likelihood BM4 in poorly sampled region BM3 in higher sampled region
• Degeneracy: BM3 & BM4 should give
similar DD signals (N, Ei)
• BM4 scan: Good fit around BM3 Nothing to draw scan towards
BM4 region Too few models to properly
evaluate profile likelihood9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
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Issue: sampling/coverage
• Real priors and/or effective priors affect scan region
• Scan may miss some regions of interest or cover them too coarsely
• Can lead to significant over/under-coverage of confidence regions (frequentist) or credible regions (Bayesian)
• Possibly improved by higher statistics …if higher statistics gives sharper likelihood contours
(can overcome real/effective priors) Not for previous case
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Issue: nuisance parameters
• Halo model Local density, velocity distribution Standard Halo Model (SHM): isothermal sphere
• 3 velocity parameters: v0, vobs, vesc
Structure?• Annual modulation (DAMA, CoGeNT)• Directional detection (DRIFT)
• Hadronic matrix elements Used in calculating SI & SD from -quark couplings 6 relevant matrix elements (only 3 are important) Affect CMSSM constraints, not pheno constraints (at least not
directly)9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Halo models + direct detection:see Strigari & Trotta (2009)
and various works by A. Green
See Ellis, Olive & CS, PRD 77, 065026 (2008)
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Halo model uncertainties
With / without uncertainties in halo model (nuisance parameters) Local DM density most significant
• See e.g. Strigari & Trotta, JCAP 11, 019 (2009)
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
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Hadronic uncertainties
With / without hadronic uncertainties (nuisance parameters) No change: affects only CMSSM parameter constraints
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
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Hadronic uncertainties
With / without hadronic uncertainties (nuisance parameters) Only directly affects CMSSM parameter constraints
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
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9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
CMSSMConstraints
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CMSSM constraints
No direct detection likelihood (priors and nuisance only)
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
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CMSSM constraints (BM1)
With direct detection likelihood Gaugino mass (m1/2) best constrained (related to m) Weaker constraints on m0, A0, tanβ
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
Profile likelihood: ■ 1σ ■ 2σ
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CMSSM constraints
• Can combine with other observational data: Indirect detection: cosmic-rays, neutrinos Accelerators Relic density, etc.
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection
-rays (Fermi-LAT)Segue 1 analysisScott et al. (2009)
Neutrinos (IceCube)IC collab + Edsjö, Scott, CS, in prep.
Accelerator (LHC: ATLAS)SU3 benchmark analysis
Bridges et al. (2010)
See Trotta et al., JHEP 0812:024 (2008)
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Summary
• Examined realistic reconstruction of darkmatter properties in SUSY (e.g. CMSSM)theories using direct detection results
• Can reconstruct WIMP properties reasonablywell in some cases, not so well in others Coverage, sampling issues:
Accuracy affected by scanning technique Nuisance parameters
• Combine DD results with other observationsto better constrain SUSY theory parameters
9/27/2011 C Savage - DSU 2011 - CMSSM and Direct Detection