Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter...
Transcript of Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter...
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S. Su Dark Matters
Dark Matter WIMP and SuperWIMP
Shufang Su • U. of Arizona
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S. Su Dark Matters 2
-
Outline
Dark matter evidence
New physics and dark matter
WIMP
candidates: neutralino LSP in MSSM
direct/indirect DM searches, collider studies
synergy between cosmology and particle physics
superWIMP
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S. Su Dark Matters 3
We are living through a revolution in our understanding of the Universe
on the largest scales
For the first time in history, we have a complete picture of the Universe
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S. Su Dark Matters 4
DM evidence: rotation curves -
NGC 2403
Rotation curves of galaxies and galactic clusters
Constrain Ωm
Ωi=ρi/ρc
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S. Su Dark Matters 4
DM evidence: rotation curves -
NGC 2403
Rotation curves of galaxies and galactic clusters
Vc ~ 1/r1/2Constrain Ωm
Ωi=ρi/ρc
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S. Su Dark Matters 4
DM evidence: rotation curves -
NGC 2403
Rotation curves of galaxies and galactic clusters
Vc ~ const
Vc ~ 1/r1/2Constrain Ωm
Ωi=ρi/ρc
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S. Su Dark Matters 4
DM evidence: rotation curves -
NGC 2403
Rotation curves of galaxies and galactic clusters
Vc ~ const
Vc ~ 1/r1/2
Dark matter in halo
Constrain Ωm
Ωi=ρi/ρc
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S. Su Dark Matters 5
Dark matter evidence: supernovae -
Supernovae
Constrain Ωm-ΩΛ
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S. Su Dark Matters 6
Dark matter evidence: CMB -
Cosmic Microwave Background
Constrain ΩΛ+Ωm
then now
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S. Su Dark Matters 7
• Remarkable agreement• Remarkable precision (~10%)
Synthesis -
Ω=73% ± 4%
Ω=23% ± 4%
Ω∼3%
Ω ~ 0.5%
Ω ~ 0.5%
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S. Su Dark Matters 7
• Remarkable agreement• Remarkable precision (~10%)
Synthesis -
Ω=73% ± 4%
Ω=23% ± 4%
Ω∼3%
Ω ~ 0.5%
Ω ~ 0.5%
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S. Su Dark Matters 8
Dark matter vs. dark energy -
We know how much, but no idea what it is.
Dark matter Dark energy
No known particles contribute All known particles contribute
Probably tied to mweak ~ 100 GeV Probably tied to mPlanck ~ 1019 GeV
Several compelling solutions No compelling solutions
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S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
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S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
SM is a very successful theoretical framework describes all experimental observations to date
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S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
![Page 16: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/16.jpg)
S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
Not for cosmology observations− Dark Matter− Cosmology constant− Baryon asymmetry …
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S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
![Page 18: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/18.jpg)
S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
CDM requirements
![Page 19: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/19.jpg)
S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
CDM requirements
• Gravitational interacting
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
![Page 20: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/20.jpg)
S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
CDM requirements
• Gravitational interacting
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
![Page 21: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/21.jpg)
S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
CDM requirements
• Gravitational interacting
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
![Page 22: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/22.jpg)
S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
CDM requirements
• Gravitational interacting
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
![Page 23: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/23.jpg)
S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
CDM requirements
• Gravitational interacting
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
![Page 24: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/24.jpg)
S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
CDM requirements
• Gravitational interacting
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
![Page 25: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/25.jpg)
S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
CDM requirements
• Gravitational interacting
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
![Page 26: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/26.jpg)
S. Su Dark Matters 9
Standard Model -
H
u c t
d s bνe
νµ ντ
e µ τ
γ W±,Z g
Quarks
Leptons
Gauge boson(force carrier)
Higgs
No good candidates for CDM in SM
CDM requirements
• Gravitational interacting
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
![Page 27: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/27.jpg)
S. Su Dark Matters 10
New physics beyond SM -
DM problem provide precise, unambiguous evidence for new physics
Independent motivation for new physics in particle physics
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S. Su Dark Matters 11
New physics beyond SM -
SM is an effective theory below some energy scale Λ ~ TeV
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S. Su Dark Matters 11
New physics beyond SM -
Hierarchy problem
SM is an effective theory below some energy scale Λ ~ TeV
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S. Su Dark Matters 11
New physics beyond SM -
Hierarchy problem
mEW ∼102 GeV
SM is an effective theory below some energy scale Λ ~ TeV
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S. Su Dark Matters 11
New physics beyond SM -
Hierarchy problem
mplank ∼1019 GeV
mEW ∼102 GeV
SM is an effective theory below some energy scale Λ ~ TeV
![Page 32: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/32.jpg)
S. Su Dark Matters 11
New physics beyond SM -
Hierarchy problem
mplank ∼1019 GeV
mEW ∼102 GeV
SM is an effective theory below some energy scale Λ ~ TeV
![Page 33: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/33.jpg)
S. Su Dark Matters 11
New physics beyond SM -
Hierarchy problem
mplank ∼1019 GeV
mEW ∼102 GeV
SM is an effective theory below some energy scale Λ ~ TeV
![Page 34: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/34.jpg)
S. Su Dark Matters 11
New physics beyond SM -
Naturalness problem Hierarchy problem
mplank ∼1019 GeV
mEW ∼102 GeV
SM is an effective theory below some energy scale Λ ~ TeV
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S. Su Dark Matters 11
New physics beyond SM -
Naturalness problem
(1019 GeV)2H
∼ (100 GeV)2(mH2)physical
= (mH2)0
+ Λ2
-(1019 GeV)2
Hierarchy problem
mplank ∼1019 GeV
mEW ∼102 GeV
SM is an effective theory below some energy scale Λ ~ TeV
![Page 36: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/36.jpg)
S. Su Dark Matters 11
New physics beyond SM -
Naturalness problem
(1019 GeV)2H
∼ (100 GeV)2(mH2)physical
= (mH2)0
+ Λ2
-(1019 GeV)2
Hierarchy problem
mplank ∼1019 GeV
mEW ∼102 GeVprecise cancellation up to 1034 order
SM is an effective theory below some energy scale Λ ~ TeV
![Page 37: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/37.jpg)
S. Su Dark Matters 11
New physics beyond SM -
New physics to protect electroweak scale• new symmetry: supersymmetry• new space dimension: extra-dimension• …
Naturalness problem
(1019 GeV)2H
∼ (100 GeV)2(mH2)physical
= (mH2)0
+ Λ2
-(1019 GeV)2
Hierarchy problem
mplank ∼1019 GeV
mEW ∼102 GeVprecise cancellation up to 1034 order
SM is an effective theory below some energy scale Λ ~ TeV
![Page 38: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/38.jpg)
S. Su Dark Matters 12
Dark matter in new physics -
Dark Matter: new stable particle
in many theories, dark matter is easier to explain than no dark matter
• there are usually many new weak scale particle • constraints (proton decay, large EW corrections) discrete symmetry
stability
good dark matter candidate
![Page 39: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/39.jpg)
S. Su Dark Matters 13
Dark matter candidates -
mass and interaction strengths span many, many orders of magnitude
Many ideas of DM candidates:
• WIMP • superWIMPs• primodial black holes• axions• warm gravitinos• Q balls• wimpzillas
• self-interacting particles• self-annihilating particles• fuzzy dark matter• branons• …
![Page 40: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/40.jpg)
S. Su Dark Matters 13
Dark matter candidates -
• WIMP • superWIMPs
![Page 41: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/41.jpg)
S. Su Dark Matters 13
Dark matter candidates -
• WIMP • superWIMPs
• appear in particle physics models motivated independently by attempts to solve Electroweak Symmetry Breaking
• relic density are determined by mpl and mweak
− naturally around the observed value− no need to introduce and adjust new energy scale
![Page 42: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/42.jpg)
S. Su Dark Matters 14
WIMP-
Boltzmann equation
expansion χχ → ff ff → χχ
![Page 43: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/43.jpg)
S. Su Dark Matters 14
WIMP-
Boltzmann equation
WIMP
expansion χχ → ff ff → χχThermal equilibriumχχ ⇔ ff
![Page 44: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/44.jpg)
S. Su Dark Matters 14
WIMP-
Boltzmann equation
expansion χχ → ff ff → χχ
Universe cools: n=nEQ~e-m/T
WIMP
![Page 45: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/45.jpg)
S. Su Dark Matters 14
WIMP-
Boltzmann equation
expansion χχ → ff ff → χχ
Freeze out, n/s ~ const
WIMP
![Page 46: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/46.jpg)
S. Su Dark Matters 14
WIMP-
Boltzmann equation
expansion χχ → ff ff → χχ
![Page 47: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/47.jpg)
S. Su Dark Matters 15
WIMP miracle -
WIMP: Weak Interacting Massive Particle
• mWIMP~ mweak
• σan ~ αweak2 mweak
-2
⇒ Ω h2 ~ 0.3
naturally around the observed value
![Page 48: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/48.jpg)
S. Su Dark Matters 16
-
SM particle superpartner Spin differ by 1/2
(Hu+,Hu
0) , (Hd0, Hd
-)
u c t
d s b
νeνµ ντ
e µ τ
B0 W±,W0 g
Squarks
sleptons
Gauginos
Higgsino
~ ~ ~
~~~
~ ~ ~
~~~~ ~ ~ ~
~~~~
Supersymmetry breaking, m ~ TeV
Minimal Supersymmetric Standard Model (MSSM)
![Page 49: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/49.jpg)
S. Su Dark Matters 16
-
SM particle superpartner Spin differ by 1/2
(Hu+,Hu
0) , (Hd0, Hd
-)
u c t
d s b
νeνµ ντ
e µ τ
B0 W±,W0 g
Squarks
sleptons
Gauginos
Higgsino
~ ~ ~
~~~
~ ~ ~
~~~~ ~ ~ ~
~~~~
CDM requirements
• Correct density
• Non-baryonic• Neutral• Cold
• Stable
• gravitational interacting
Supersymmetry breaking, m ~ TeV
Minimal Supersymmetric Standard Model (MSSM)
![Page 50: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/50.jpg)
S. Su Dark Matters 16
-
SM particle superpartner Spin differ by 1/2
(Hu+,Hu
0) , (Hd0, Hd
-)
u c t
d s b
νeνµ ντ
e µ τ
B0 W±,W0 g
Squarks
sleptons
Gauginos
Higgsino
~ ~ ~
~~~
~ ~ ~
~~~~ ~ ~ ~
~~~~
CDM requirements
• Correct density
• Non-baryonic• Neutral• Cold
• Stable
• gravitational interacting
Supersymmetry breaking, m ~ TeV
Minimal Supersymmetric Standard Model (MSSM)
![Page 51: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/51.jpg)
S. Su Dark Matters 16
-
SM particle superpartner Spin differ by 1/2
(Hu+,Hu
0) , (Hd0, Hd
-)
u c t
d s b
νeνµ ντ
e µ τ
B0 W±,W0 g
Squarks
sleptons
Gauginos
Higgsino
~ ~ ~
~~~
~ ~ ~
~~~~ ~ ~ ~
~~~~
CDM requirements
• Correct density
• Non-baryonic• Neutral• Cold
• Stable
• gravitational interacting
Supersymmetry breaking, m ~ TeV
Minimal Supersymmetric Standard Model (MSSM)
![Page 52: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/52.jpg)
S. Su Dark Matters 16
-
SM particle superpartner Spin differ by 1/2
(Hu+,Hu
0) , (Hd0, Hd
-)
u c t
d s b
νeνµ ντ
e µ τ
B0 W±,W0 g
Squarks
sleptons
Gauginos
Higgsino
~ ~ ~
~~~
~ ~ ~
~~~~ ~ ~ ~
~~~~
CDM requirements
• Correct density
• Non-baryonic• Neutral• Cold
• Stable
• gravitational interacting
Supersymmetry breaking, m ~ TeV
Minimal Supersymmetric Standard Model (MSSM)
![Page 53: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/53.jpg)
S. Su Dark Matters 16
-
SM particle superpartner Spin differ by 1/2
(Hu+,Hu
0) , (Hd0, Hd
-)
u c t
d s b
νeνµ ντ
e µ τ
B0 W±,W0 g
Squarks
sleptons
Gauginos
Higgsino
~ ~ ~
~~~
~ ~ ~
~~~~ ~ ~ ~
~~~~
CDM requirements
• Correct density
• Non-baryonic• Neutral• Cold m > 45 GeV
• Stable
• gravitational interacting
Supersymmetry breaking, m ~ TeV
Minimal Supersymmetric Standard Model (MSSM)
![Page 54: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/54.jpg)
S. Su Dark Matters 16
-
SM particle superpartner Spin differ by 1/2
(Hu+,Hu
0) , (Hd0, Hd
-)
u c t
d s b
νeνµ ντ
e µ τ
B0 W±,W0 g
Squarks
sleptons
Gauginos
Higgsino
~ ~ ~
~~~
~ ~ ~
~~~~ ~ ~ ~
~~~~
CDM requirements
• Correct density
• Non-baryonic• Neutral• Cold m > 45 GeV
• Stable
• gravitational interacting
weak interaction
Supersymmetry breaking, m ~ TeV
Minimal Supersymmetric Standard Model (MSSM)
![Page 55: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/55.jpg)
S. Su Dark Matters 16
-
SM particle superpartner Spin differ by 1/2
(Hu+,Hu
0) , (Hd0, Hd
-)
u c t
d s b
νeνµ ντ
e µ τ
B0 W±,W0 g
Squarks
sleptons
Gauginos
Higgsino
~ ~ ~
~~~
~ ~ ~
~~~~ ~ ~ ~
~~~~
CDM requirements
• Correct density
• Non-baryonic• Neutral• Cold m > 45 GeV
• Stable
• gravitational interacting
weak interaction
Supersymmetry breaking, m ~ TeV
Minimal Supersymmetric Standard Model (MSSM)
![Page 56: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/56.jpg)
S. Su Dark Matters 17
Neutralino LSP as DM -
• new weak scale particle • constraints discrete symmetry
stability
dark matter candidate
![Page 57: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/57.jpg)
S. Su Dark Matters 17
Neutralino LSP as DM -
• new weak scale particle • constraints discrete symmetry
stability
dark matter candidate
super-partners
![Page 58: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/58.jpg)
S. Su Dark Matters 17
Neutralino LSP as DM -
• new weak scale particle • constraints discrete symmetry
stability
dark matter candidate
super-partners
proton decay
![Page 59: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/59.jpg)
S. Su Dark Matters 17
Neutralino LSP as DM -
• new weak scale particle • constraints discrete symmetry
stability
dark matter candidate
super-partners
proton decay
R-parity: SM particle + super-partner -
![Page 60: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/60.jpg)
S. Su Dark Matters 17
Neutralino LSP as DM -
• new weak scale particle • constraints discrete symmetry
stability
dark matter candidate
super-partners
proton decay
R-parity: SM particle + super-partner -
lightest supersymmetric particle (LSP) stableLSP ⇒ SM particle, LSP ⇒ super particle
![Page 61: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/61.jpg)
S. Su Dark Matters 17
Neutralino LSP as DM -
• new weak scale particle • constraints discrete symmetry
stability
dark matter candidate
super-partners
proton decay
R-parity: SM particle + super-partner -
lightest supersymmetric particle (LSP) stableLSP ⇒ SM particle, LSP ⇒ super particle
B0, W0, Hd0, Hu
0
Superpartner of gauge bosons
Superpartner of Higgs bosons
~ ~ ~ ~
⇓ neutralinos χi
0, i=1…4 mass eigenstates
Neutralino LSP: χ10 as Dark Matter
![Page 62: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/62.jpg)
S. Su Dark Matters 18
-
Neutralino relic density
CMSSM
0.1 ≤ Ωχh2 ≤ 0.3 (pre-WMAP)
• Cosmology excludes much of the parameter space
Ωχ too big
• cosmology focuses attention on particular regions
Ωχ just right
![Page 63: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/63.jpg)
S. Su Dark Matters 18
-
Neutralino relic density
CMSSM
0.1 ≤ Ωχh2 ≤ 0.3 (pre-WMAP)
• Cosmology excludes much of the parameter space
Ωχ too big
• cosmology focuses attention on particular regions
Ωχ just right
![Page 64: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/64.jpg)
S. Su Dark Matters 18
-
Neutralino relic density
CMSSM
0.1 ≤ Ωχh2 ≤ 0.3 (pre-WMAP)
• Cosmology excludes much of the parameter space
Ωχ too big
• cosmology focuses attention on particular regions
Ωχ just right
![Page 65: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/65.jpg)
S. Su Dark Matters 18
-
Neutralino relic density
CMSSM
0.1 ≤ Ωχh2 ≤ 0.3 (pre-WMAP)
• Cosmology excludes much of the parameter space
Ωχ too big
• cosmology focuses attention on particular regions
Ωχ just right
![Page 66: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/66.jpg)
S. Su Dark Matters 18
-
Neutralino relic density
CMSSM
0.1 ≤ Ωχh2 ≤ 0.3 (pre-WMAP)
• Cosmology excludes much of the parameter space
Ωχ too big
• cosmology focuses attention on particular regions
Ωχ just right
![Page 67: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/67.jpg)
S. Su Dark Matters 19
Dark matter detection -
DM
DM f
f
Ω∝1/<σv>Not overclose universe
⇓Efficient annihilation then
DM annihilation
![Page 68: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/68.jpg)
S. Su Dark Matters 19
Dark matter detection -
DM
DM f
f
Ω∝1/<σv>Not overclose universe
⇓Efficient annihilation then
DM annihilation
Cross symmetry
DM
DM
ff
DM scattering
![Page 69: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/69.jpg)
S. Su Dark Matters 19
Dark matter detection -
DM
DM f
f
Ω∝1/<σv>Not overclose universe
⇓Efficient annihilation then
DM annihilation
Cross symmetry
DM
DM
ff
DM scattering
Efficient scattering now direct DM direction
![Page 70: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/70.jpg)
S. Su Dark Matters 19
Dark matter detection -
DM
DM f
f
Ω∝1/<σv>Not overclose universe
⇓Efficient annihilation then
DM annihilation
Cross symmetry
DM
DM
ff
DM scattering
Efficient scattering now direct DM direction
Efficient annihilation now indirect DM direction
![Page 71: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/71.jpg)
S. Su Dark Matters 20
Direct detection -
DM
detector
![Page 72: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/72.jpg)
S. Su Dark Matters 20
Direct detection -
DM
detector
Measure nuclear recoil energy
![Page 73: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/73.jpg)
S. Su Dark Matters 20
Direct detection -
DM
detector
Measure nuclear recoil energy
![Page 74: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/74.jpg)
S. Su Dark Matters 20
Direct detection -
DM
detector
Measure nuclear recoil energy
Number of targetnuclei in detector
![Page 75: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/75.jpg)
S. Su Dark Matters 20
Direct detection -
DM
detector
Measure nuclear recoil energy
Number of targetnuclei in detector
Local WIMP density(astro physics)
![Page 76: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/76.jpg)
S. Su Dark Matters 20
Direct detection -
DM
detector
Measure nuclear recoil energy
Number of targetnuclei in detector
Local WIMP density(astro physics)
scattering cross section(particle physics)
![Page 77: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/77.jpg)
S. Su Dark Matters 20
Direct detection -
DM
detector
Measure nuclear recoil energy
Number of targetnuclei in detector
Local WIMP density(astro physics)
scattering cross section(particle physics)
• spin dependent scattering• spin independent scattering: dominant for heavy atom target
• elastic scattering• inelastic scattering: measure ionization, photon, …
![Page 78: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/78.jpg)
S. Su Dark Matters 21
Direct detection - 5
WIMP mass [GeV/c2]
Sp
in!
ind
epen
den
t cr
oss
sec
tion
[cm
2]
101
102
103
10!44
10!43
10!42
10!41
Baltz Gondolo 2004
Ruiz et al. 2007 95% CL
Ruiz et al. 2007 68% CL
CDMS II 1T+2T Ge Reanalysis
XENON10 2007
CDMS II 2008 Ge
CDMS II Ge combined
FIG. 4: Spin-independent WIMP-nucleon cross section up-per limits (90% C.L.) versus WIMP mass. The upper curve(dash-dot) is the result of a re-analysis [17] of our previouslypublished data. The upper solid line represents the limit de-rived from our new data set. The combined CDMS limit(lower solid line) reaches the same minimum cross section asthat from Xenon10 [18] (dashed), but with more sensitivityat higher masses. Also shown are parameter ranges expectedfrom different supersymmetric models described in [19] (grey)and [20] (95% and 68% confidence levels in green and blue,respectively). Plots courtesy of [22].
(1985).
[3] B.W. Lee and S. Weinberg, Phys. Rev. Lett. 39, 165(1977); S. Weinberg, Phys. Rev. Lett. 48, 1303 (1982).
[4] G. Jungman, M. Kamionkowski, and K. Griest, Phys.Rep. 267, 195 (1996); G. Bertone, D. Hooper, and J. Silk,Phys. Rep. 405, 279 (2005).
[5] J.D. Lewin and P.F. Smith, Astropart. Phys. 6, 87(1996).
[6] E.A. Baltz, M. Battaglia, M.E. Peskin and T. Wizansky,Phys. Rev. D 74, 103521 (2006).
[7] K.D. Irwin et al., Rev. Sci. Instr. 66, 5322 (1995);T. Saab et al., AIP Proc. 605, 497 (2002).
[8] D.S. Akerib et al., (CDMS Collab.) Phys. Rev. D 72,052009 (2005).
[9] D.S. Akerib et al., (CDMS Collab.) Phys. Rev. Lett. 96,011302 (2006).
[10] D.S. Akerib et al., (CDMS Collab.) Phys. Rev. D 73,011102 (2006).
[11] CDMS Collab., in preparation.[12] A. Fasso et al., CERN-2005-10 (2005), INFN/TC 05/11,
SLAC-R-773; A. Fasso et al., arXiv:hep-ph/0306167[13] J.S. Hendricks et al., LA-UR-07-6632 available from
http://mcnpx.lanl.gov/[14] J. Allison et al., IEEE Trans. Nucl. Sc. 53 (2006) 270;
S. Agostinelli et al., Nucl. Instrum. Methods A 506(2003) 250
[15] D.S. Leonard et al., (EXO Collab.) arXiv:0709.4524v1
[physics.ins-det].[16] S. Yellin, Phys. Rev. D 66, 032005 (2002).[17] CDMS Collab., in preparation; R.W. Ogburn, Ph.D. dis-
sertation. Stanford University (unpublished).[18] J. Angle et al., (XENON Collab.) Phys. Rev. Lett. 100,
021303 (2008)[19] E.A. Baltz and P. Gondolo, JHEP 0410 (2004) 052.[20] L. Roszkowski et al. JHEP 07 (2007) 075.[21] J. Engel, Phys. Lett. B 264, 114 (1991).[22] R.J. Gaitskell, V. Mandic and J. Filippini,
http://dmtools.brown.edu
CDMS
Figure 6: Top: Improved limits on spin-dependent (pure) proton-WIMP coupling vs. WIMP
mass from this experiment (COUPP, the Chicagoland Observatory for Underground Particle
Physics). Couplings above the line would have produced signals above observed backgrounds
and are excluded to 90% C.L. Limits from other experiments are also shown (29), as well as the
(orange) region favored as a possible explanation to an existing claim for WIMP observation
(30, 31), a hypothesis now contradicted by this experiment. Bottom: Similar limits for spin-
dependent coupling parameters where no assumption is made about the relative strength of the
coupling to neutrons and protons, but a WIMP mass must be chosen (50 GeV/c2 here) (32, 33).
The region outside of the ellipses is excluded by each experiment.
19
COUPP
![Page 79: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/79.jpg)
S. Su Dark Matters 21
Direct detection - 5
WIMP mass [GeV/c2]
Sp
in!
ind
epen
den
t cr
oss
sec
tion
[cm
2]
101
102
103
10!44
10!43
10!42
10!41
Baltz Gondolo 2004
Ruiz et al. 2007 95% CL
Ruiz et al. 2007 68% CL
CDMS II 1T+2T Ge Reanalysis
XENON10 2007
CDMS II 2008 Ge
CDMS II Ge combined
FIG. 4: Spin-independent WIMP-nucleon cross section up-per limits (90% C.L.) versus WIMP mass. The upper curve(dash-dot) is the result of a re-analysis [17] of our previouslypublished data. The upper solid line represents the limit de-rived from our new data set. The combined CDMS limit(lower solid line) reaches the same minimum cross section asthat from Xenon10 [18] (dashed), but with more sensitivityat higher masses. Also shown are parameter ranges expectedfrom different supersymmetric models described in [19] (grey)and [20] (95% and 68% confidence levels in green and blue,respectively). Plots courtesy of [22].
(1985).
[3] B.W. Lee and S. Weinberg, Phys. Rev. Lett. 39, 165(1977); S. Weinberg, Phys. Rev. Lett. 48, 1303 (1982).
[4] G. Jungman, M. Kamionkowski, and K. Griest, Phys.Rep. 267, 195 (1996); G. Bertone, D. Hooper, and J. Silk,Phys. Rep. 405, 279 (2005).
[5] J.D. Lewin and P.F. Smith, Astropart. Phys. 6, 87(1996).
[6] E.A. Baltz, M. Battaglia, M.E. Peskin and T. Wizansky,Phys. Rev. D 74, 103521 (2006).
[7] K.D. Irwin et al., Rev. Sci. Instr. 66, 5322 (1995);T. Saab et al., AIP Proc. 605, 497 (2002).
[8] D.S. Akerib et al., (CDMS Collab.) Phys. Rev. D 72,052009 (2005).
[9] D.S. Akerib et al., (CDMS Collab.) Phys. Rev. Lett. 96,011302 (2006).
[10] D.S. Akerib et al., (CDMS Collab.) Phys. Rev. D 73,011102 (2006).
[11] CDMS Collab., in preparation.[12] A. Fasso et al., CERN-2005-10 (2005), INFN/TC 05/11,
SLAC-R-773; A. Fasso et al., arXiv:hep-ph/0306167[13] J.S. Hendricks et al., LA-UR-07-6632 available from
http://mcnpx.lanl.gov/[14] J. Allison et al., IEEE Trans. Nucl. Sc. 53 (2006) 270;
S. Agostinelli et al., Nucl. Instrum. Methods A 506(2003) 250
[15] D.S. Leonard et al., (EXO Collab.) arXiv:0709.4524v1
[physics.ins-det].[16] S. Yellin, Phys. Rev. D 66, 032005 (2002).[17] CDMS Collab., in preparation; R.W. Ogburn, Ph.D. dis-
sertation. Stanford University (unpublished).[18] J. Angle et al., (XENON Collab.) Phys. Rev. Lett. 100,
021303 (2008)[19] E.A. Baltz and P. Gondolo, JHEP 0410 (2004) 052.[20] L. Roszkowski et al. JHEP 07 (2007) 075.[21] J. Engel, Phys. Lett. B 264, 114 (1991).[22] R.J. Gaitskell, V. Mandic and J. Filippini,
http://dmtools.brown.edu
CDMS
Figure 6: Top: Improved limits on spin-dependent (pure) proton-WIMP coupling vs. WIMP
mass from this experiment (COUPP, the Chicagoland Observatory for Underground Particle
Physics). Couplings above the line would have produced signals above observed backgrounds
and are excluded to 90% C.L. Limits from other experiments are also shown (29), as well as the
(orange) region favored as a possible explanation to an existing claim for WIMP observation
(30, 31), a hypothesis now contradicted by this experiment. Bottom: Similar limits for spin-
dependent coupling parameters where no assumption is made about the relative strength of the
coupling to neutrons and protons, but a WIMP mass must be chosen (50 GeV/c2 here) (32, 33).
The region outside of the ellipses is excluded by each experiment.
19
DAMA result? COUPP
![Page 80: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/80.jpg)
S. Su Dark Matters 22
-
Indirect detection
DMDM
detector
ΓA ∝ nDM2
![Page 81: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/81.jpg)
S. Su Dark Matters 22
-
Indirect detection
DMDM
detector
Dark Matter annihilates
in (amplifier) to , a place some particles
which are detected by . an experiment
reci
peΓA ∝ nDM
2
![Page 82: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/82.jpg)
S. Su Dark Matters 23
Dark Matter annihilates
in center of the sun to neutrinos , a place some particles
which are detected by AMANDA, ICECUBE. an experiment
reci
pe
ν
µ
earth
Dark matter density in the sun, capture rate
![Page 83: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/83.jpg)
S. Su Dark Matters 24
MSSM-
Indirect detection: neutrino
icecube
Hooper and Wang (2003)
![Page 84: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/84.jpg)
S. Su Dark Matters 25
Dark Matter annihilates
in galactic center to photons , a place some particles
which are detected by GLAST, HESS. an experiment re
cipe
Dark matter density in the center of the galaxy
HESS
![Page 85: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/85.jpg)
S. Su Dark Matters 26
MSSM
EGRET
GLAST
-
Indirect detection: gamma ray
Hooper and Wang (2003)
![Page 86: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/86.jpg)
S. Su Dark Matters 27
Dark Matter annihilates
in the halo to positions , a place some particles
which are detected by AMS, HEAT, PAMELA. an experiment re
cip
e
Dark matter density profile in the halo
AMS
![Page 87: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/87.jpg)
S. Su Dark Matters 28
-
Indirect detection: positron!"#$%&"'#()$%*(+,-.(/(!-0,1-((
Mirko Boezio, INFN Trieste - Fermilab, 2008/05/02
!"#$%&'()*+$,-)./-0,)(12$'-34$%-55(3
! "#$%&'()'*%&(+*,(-.$$(/0)'
! 1%#',)#(22
Cheng, Feng, Matchev, hep-ph/0207125v2
Bringmann, astro-ph/0506219v2
e+
p-KK
![Page 88: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/88.jpg)
S. Su Dark Matters 29
-
Collider study of dark matter
Can study those regions at colliders
pp
2008Now
Tevatron
p-p
Precise determination of new particle mass and coupling⇓
Determine DM mass, relic density
LHC
ILC
![Page 89: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/89.jpg)
S. Su Dark Matters 30
Choose four representative points for detailed study
-
Neutralino DM in mSUGRA
Feng et. al. ILC cosmology working group
Baer et. al. ISAJETGondolo et. al. DarkSUSYBelanger et. al. MicroMEGA
![Page 90: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/90.jpg)
S. Su Dark Matters 31
LCC1
-
Relic density determination: LCC1
result: ΔΩχ/Ωχ = 1.0%
Battaglia (2005)
![Page 91: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/91.jpg)
S. Su Dark Matters 31
WMAP(current)
LCC1
-
Relic density determination: LCC1
result: ΔΩχ/Ωχ = 1.0%
Battaglia (2005)
![Page 92: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/92.jpg)
S. Su Dark Matters 31
WMAP(current)
Planck(~2010)
LCC1
-
Relic density determination: LCC1
result: ΔΩχ/Ωχ = 1.0%
Battaglia (2005)
![Page 93: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/93.jpg)
S. Su Dark Matters 31
WMAP(current)
Planck(~2010)
LHC (“best case scenario”)
LCC1
-
Relic density determination: LCC1
result: ΔΩχ/Ωχ = 1.0%
Battaglia (2005)
![Page 94: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/94.jpg)
S. Su Dark Matters 31
WMAP(current)
Planck(~2010)
LHC (“best case scenario”)ILC
LCC1
-
Relic density determination: LCC1
result: ΔΩχ/Ωχ = 1.0%
Battaglia (2005)
![Page 95: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/95.jpg)
S. Su Dark Matters 32
-
Comparison of pre-LHC SUSY searches
• DM searches are complementary to collider searches
• When combined, entire cosmologically attractive region will be explored before LHC ( 2008 )
Pre-WMAPPost-WMAP
LHC searchDM search
![Page 96: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/96.jpg)
S. Su Dark Matters 33
Synergy -
![Page 97: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/97.jpg)
S. Su Dark Matters 33
Synergy -
Collider Inputs
Weak-scale Parameters
DM Annihilation DM-N Interaction
![Page 98: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/98.jpg)
S. Su Dark Matters 33
Synergy -
Relic Density Indirect Detection Direct Detection
Astrophysical and Cosmological Inputs
Collider Inputs
Weak-scale Parameters
DM Annihilation DM-N Interaction
![Page 99: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/99.jpg)
S. Su Dark Matters 33
Synergy -
Relic Density Indirect Detection Direct Detection
Astrophysical and Cosmological Inputs
Collider Inputs
Weak-scale Parameters
DM Annihilation DM-N Interaction
parts per mille agreement for Ωχ discovery of dark matter
![Page 100: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/100.jpg)
S. Su Dark Matters 33
Synergy -
Relic Density Indirect Detection Direct Detection
Astrophysical and Cosmological Inputs
Collider Inputs
Weak-scale Parameters
DM Annihilation DM-N Interaction
parts per mille agreement for Ωχ discovery of dark matter
local DM density and velocity profile
![Page 101: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/101.jpg)
S. Su Dark Matters 33
Synergy -
Relic Density Indirect Detection Direct Detection
Astrophysical and Cosmological Inputs
Collider Inputs
Weak-scale Parameters
DM Annihilation DM-N Interaction
parts per mille agreement for Ωχ discovery of dark matter
local DM density and velocity profile
eliminate particle physics uncertaintydo real astrophysics
![Page 102: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/102.jpg)
S. Su Dark Matters 34
Alternative dark matter -
All of the signals rely on DM having EW interactions.
Is this required?
![Page 103: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/103.jpg)
S. Su Dark Matters 34
Alternative dark matter -
All of the signals rely on DM having EW interactions.
Is this required?
CDM requirements
• Gravitational interacting (much weaker than electroweak)
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
NO!
![Page 104: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/104.jpg)
S. Su Dark Matters 34
Alternative dark matter -
All of the signals rely on DM having EW interactions.
Is this required?
CDM requirements
• Gravitational interacting (much weaker than electroweak)
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
NO!
![Page 105: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/105.jpg)
S. Su Dark Matters 34
Alternative dark matter -
But the relic density argument strongly prefers weak interactions.
All of the signals rely on DM having EW interactions.
Is this required?
CDM requirements
• Gravitational interacting (much weaker than electroweak)
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
NO!
![Page 106: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/106.jpg)
S. Su Dark Matters 34
Alternative dark matter -
But the relic density argument strongly prefers weak interactions.
All of the signals rely on DM having EW interactions.
Is this required?
CDM requirements
• Gravitational interacting (much weaker than electroweak)
• Stable• Non-baryonic• Neutral• Cold (massive) • Correct density
NO!
ΩDM ∝ 〈σ〉-1
∝ (gravitational coupling)-2
● 〈σ〉 too small
● ΩDM too big
overclose the Universe
![Page 107: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/107.jpg)
S. Su Dark Matters 35
superWIMP-
Feng, Rajaraman and Takayama (2003)WIMP → superWIMP + SM particles
Feng, Rajaraman, Takayama (2003);Bi, Li, Zhang (2003);Ellis, Olive, Santoso, Spanos (2003);Wang, Yang (2004);Feng, Su, Takayama (2004);Buchmuller, hamaguchi, Ratz, Yanagida (2004);Roszkowski, Ruiz de Austri, Choi (2004);Brandeburg, Covi, hamaguchi, Roszkowski, Steffen (2005);...
![Page 108: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/108.jpg)
S. Su Dark Matters 35
superWIMP-
Feng, Rajaraman and Takayama (2003)WIMP → superWIMP + SM particles
WIMP
![Page 109: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/109.jpg)
S. Su Dark Matters 35
superWIMP-
Feng, Rajaraman and Takayama (2003)
104 s < t < 108 s
WIMP → superWIMP + SM particles
WIMP
![Page 110: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/110.jpg)
S. Su Dark Matters 35
superWIMP-
Feng, Rajaraman and Takayama (2003)
104 s < t < 108 s
WIMP → superWIMP + SM particles
WIMP
![Page 111: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/111.jpg)
S. Su Dark Matters 35
superWIMP-
SWIMP
Feng, Rajaraman and Takayama (2003)
104 s < t < 108 s
WIMP → superWIMP + SM particles
SM
![Page 112: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/112.jpg)
S. Su Dark Matters 35
superWIMP-
SWIMP
Feng, Rajaraman and Takayama (2003)
104 s < t < 108 s
WIMP → superWIMP + SM particles
SM
![Page 113: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/113.jpg)
S. Su Dark Matters 35
superWIMP-
Feng, Rajaraman and Takayama (2003)
104 s < t < 108 s
WIMP → superWIMP + SM particles
![Page 114: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/114.jpg)
S. Su Dark Matters 35
superWIMP-
Feng, Rajaraman and Takayama (2003)
104 s < t < 108 s
superWIMP
e.g. Gravitino LSP LKK graviton
WIMP• neutral• charged
WIMP → superWIMP + SM particles
![Page 115: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/115.jpg)
S. Su Dark Matters 36
superWIMP in SUSY-
SUSY case WIMP → superWIMP + SM particles
![Page 116: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/116.jpg)
S. Su Dark Matters 36
superWIMP in SUSY-
SUSY case WIMP → superWIMP + SM particles
Charged sleptonSuperpartner of lepton
![Page 117: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/117.jpg)
S. Su Dark Matters 36
superWIMP in SUSY-
SUSY case WIMP → superWIMP + SM particles
Charged sleptonSuperpartner of lepton
GravitinoSuperpartner of graviton
![Page 118: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/118.jpg)
S. Su Dark Matters 36
superWIMP in SUSY-
SUSY case WIMP → superWIMP + SM particles
Charged sleptonSuperpartner of lepton
GravitinoSuperpartner of graviton
EM, had. cascade
⇒ change CMB spectrum
⇒ change light element
abundance predicted
by BBN
Strong constraints !
![Page 119: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/119.jpg)
S. Su Dark Matters 36
superWIMP in SUSY-
SUSY case WIMP → superWIMP + SM particles
Charged sleptonSuperpartner of lepton
GravitinoSuperpartner of graviton
EM, had. cascade
⇒ change CMB spectrum
⇒ change light element
abundance predicted
by BBN
Strong constraints !
WIMP
superWIMP
SM particle
~ 1
mpl
Decay lifetime ∝ mpl2/mG3 ~
![Page 120: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/120.jpg)
S. Su Dark Matters 37
Neutralino LSP vs. Gravitino LSP-
G~
χ,~ l~LSP
WIMP
G~
χ,~ l~
LSP
SuperWIMP
![Page 121: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/121.jpg)
S. Su Dark Matters 38
stau NLSP-
fix ΩG = 0.23~
200 GeV ≤ δm ≤ 400 ~1500 GeVmG ≤ 200 GeV~
Feng, SS and Takayama (2004)
![Page 122: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/122.jpg)
S. Su Dark Matters 38
stau NLSP-
fix ΩG = 0.23~
200 GeV ≤ δm ≤ 400 ~1500 GeVmG ≤ 200 GeV~
Feng, SS and Takayama (2004)
solve 7Li anomaly
![Page 123: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/123.jpg)
S. Su Dark Matters 39
mSUGRA-
BBN EM constraints only
Stau NLSP
Ellis et. al., hep-ph/0312262
superWIMP allowed region
Usual WIMP allowed region
![Page 124: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/124.jpg)
S. Su Dark Matters 40
-
NLSP
NLSP
NLSP
NLSP
NLSP
![Page 125: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/125.jpg)
S. Su Dark Matters 40
-
~G
~G
~G
~G
~G
SM
SM
SM
SM
SM
![Page 126: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/126.jpg)
S. Su Dark Matters 40
-
SM
SM
SM
SM
SM
![Page 127: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/127.jpg)
S. Su Dark Matters 40
-
● Decay life time
● SM particle energy/angular distribution … ⇒ mG
⇒ mpl …
~
SM
SM
SM
SM
SM
![Page 128: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/128.jpg)
S. Su Dark Matters 40
-
● Decay life time
● SM particle energy/angular distribution … ⇒ mG
⇒ mpl …
~
• Probes gravity in a particle physics experiments!
• BBN, CMB in the lab
• Precise test of supergravity: gravitino is a graviton partner
SM
SM
SM
SM
SM
![Page 129: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/129.jpg)
S. Su Dark Matters 40
-
How to trap slepton?
● Decay life time
● SM particle energy/angular distribution … ⇒ mG
⇒ mpl …
~
• Probes gravity in a particle physics experiments!
• BBN, CMB in the lab
• Precise test of supergravity: gravitino is a graviton partner
SM
SM
SM
SM
SM
![Page 130: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/130.jpg)
S. Su Dark Matters 40
-
How to trap slepton?
● Decay life time
● SM particle energy/angular distribution … ⇒ mG
⇒ mpl …
~
• Probes gravity in a particle physics experiments!
• BBN, CMB in the lab
• Precise test of supergravity: gravitino is a graviton partner
Hamaguchi, kuno, Nakaya, Nojiri, (2004)Feng and Smith, (2004)De Roeck et. al., (2005)
SM
SM
SM
SM
SM
![Page 131: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/131.jpg)
S. Su Dark Matters 41
slepton trapping-
Slepton could live for a year, so can be trapped then moved to a quiet environment to observe decays
Feng and Smith, hep-ph/0409278
![Page 132: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/132.jpg)
S. Su Dark Matters 41
slepton trapping-
Slepton could live for a year, so can be trapped then moved to a quiet environment to observe decays
• LHC: 106 slepton/yr possible, but most are fast. Catch 100/yr in 1 kton water
Feng and Smith, hep-ph/0409278
![Page 133: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/133.jpg)
S. Su Dark Matters 41
slepton trapping-
Slepton could live for a year, so can be trapped then moved to a quiet environment to observe decays
• LHC: 106 slepton/yr possible, but most are fast. Catch 100/yr in 1 kton water
• LC: tune beam energy to produce slow sleptons, can catch 1000/yr in 1 kton water
Feng and Smith, hep-ph/0409278
![Page 134: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/134.jpg)
S. Su Dark Matters 42
-
Conclusion
![Page 135: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/135.jpg)
S. Su Dark Matters 42
-
Conclusion We now know the composition of the Universe
![Page 136: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/136.jpg)
S. Su Dark Matters 42
-
Conclusion We now know the composition of the Universe
No known particle in the SM can be DM
![Page 137: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/137.jpg)
S. Su Dark Matters 42
-
Conclusion We now know the composition of the Universe
No known particle in the SM can be DM
⇒ precise, unambiguous evidence for new physics
![Page 138: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/138.jpg)
S. Su Dark Matters 42
-
Conclusion We now know the composition of the Universe
No known particle in the SM can be DM
⇒ precise, unambiguous evidence for new physics
New physics
![Page 139: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/139.jpg)
S. Su Dark Matters 42
-
Conclusion We now know the composition of the Universe
No known particle in the SM can be DM
⇒ precise, unambiguous evidence for new physics
New physics
⇒ new stable particle as DM candidate
![Page 140: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/140.jpg)
S. Su Dark Matters 42
-
Conclusion We now know the composition of the Universe
No known particle in the SM can be DM
⇒ precise, unambiguous evidence for new physics
New physics
⇒ new stable particle as DM candidate
WIMP: neutralino LSP in MSSM, LKP in UED
![Page 141: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/141.jpg)
S. Su Dark Matters 42
-
Conclusion We now know the composition of the Universe
No known particle in the SM can be DM
⇒ precise, unambiguous evidence for new physics
New physics
⇒ new stable particle as DM candidate
WIMP: neutralino LSP in MSSM, LKP in UED
direct/indirect DM searches, collider studies
![Page 142: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/142.jpg)
S. Su Dark Matters 42
-
Conclusion We now know the composition of the Universe
No known particle in the SM can be DM
⇒ precise, unambiguous evidence for new physics
New physics
⇒ new stable particle as DM candidate
WIMP: neutralino LSP in MSSM, LKP in UED
direct/indirect DM searches, collider studies
synergy between cosmology and particle physics
![Page 143: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/143.jpg)
S. Su Dark Matters 42
-
Conclusion We now know the composition of the Universe
No known particle in the SM can be DM
⇒ precise, unambiguous evidence for new physics
New physics
⇒ new stable particle as DM candidate
WIMP: neutralino LSP in MSSM, LKP in UED
direct/indirect DM searches, collider studies
synergy between cosmology and particle physics
![Page 144: Dark Matter WIMP and SuperWIMPshufang/talk/DM_collo.pdfS. Su Dark Matters 2-Outline Dark matter evidence New physics and dark matter WIMP candidates: neutralino LSP in MSSM direct/indirect](https://reader035.fdocuments.net/reader035/viewer/2022071403/60f691019bad1f5e640758ad/html5/thumbnails/144.jpg)
S. Su Dark Matters 42
-
Conclusion We now know the composition of the Universe
No known particle in the SM can be DM
⇒ precise, unambiguous evidence for new physics
New physics
⇒ new stable particle as DM candidate
WIMP: neutralino LSP in MSSM, LKP in UED
direct/indirect DM searches, collider studies
synergy between cosmology and particle physics
superWIMP: new viable candidate for DM