SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics...
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![Page 1: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/1.jpg)
SUSY in the sky: supersymmetric dark matter
David G. CerdeñoInstitute for Particle Physics Phenomenology
Based on works with S.Baek, K.Y.Choi, C.Hugonie, K.Jedamzik, Y.G.Kim, P.Ko, D.López-Fogliani, C.Muñoz, R.R. de Austri, L.Roszkowski, A.M.Teixeira
![Page 2: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/2.jpg)
2-12-05 Durham
Contents
• Present status
Dark matter is a necessary ingredient in present models for the Universe… … but we have not identified it yet
Can it be the Lightest Supersymmetric Particle (LSP)?
Direct detection experiments will continue providing data in the near future.
• It may be detected in running or projected dark matter experiments?
The lightest Neutralino?
• Or maybe not?
The gravitino (or the axino)?
![Page 3: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/3.jpg)
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SUSY dark matter
• The lightest Neutralino
![Page 4: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/4.jpg)
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Direct detection of Neutralinos
• Could the lightest neutralino be found in direct detection experiments?
Direct detection through the elastic scattering of a WIMP with nuclei inside a detector.
Many experiments around the world are currently looking for this signal with increasing sensitivities
How large can the neutralino detection cross section be?
Could we explain a hypothetical WIMP detection with neutralino dark matter?
![Page 5: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/5.jpg)
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Neutralinos
• How large can the direct detection cross section for neutralinos be?
1) In which theory? (field content, interactions, parameters…)
MSSM NMSSM …
Parameters given at the GUT scale MGUT (e.g., coming from SUGRA theories) or at the EW scale (effMSSM)
2) Effect of experimental constraints?
masses of superpartners
Low energy observables ( (g-2), bs, BS +-, …)
3) Reproduce the correct relic density?
![Page 6: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/6.jpg)
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Neutralinos
• In the MSSM the mechanisms which allow for an increase in the detection cross section are well known
In the MSSM, the neutralino is a physical superposition of the B, W, H1, H2
The detection properties of the neutralino depend on its composition
~ ~ ~ ~
![Page 7: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/7.jpg)
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Neutralinos
• Large detection cross sections
Squark-exchange
Higgs-exchange
Leading contribution. It can increase when
• The Higgsino components of the neutralino increase
• The Higgs masses decrease
![Page 8: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/8.jpg)
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Neutralinos
Higgs-exchange
Leading contribution. It can increase when
• The Higgsino components of the neutralino increase
• The Higgs masses decrease
In terms of the mass parameters in the RGE
mHd2
mHu2
Non-universal soft terms (e.g., in the Higgs sector)
MGUT mHu2
mHd2
![Page 9: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/9.jpg)
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Neutralinos
Higgs-exchange
Leading contribution. It can increase when
• The Higgsino components of the neutralino increase
• The Higgs masses decrease
In terms of the mass parameters in the RGE
mHd2
mHu2
Non-universal soft terms (e.g., in the Higgs sector)
MGUTMI
Or intermediate scales
mHu2
mHd2
![Page 10: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/10.jpg)
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Neutralinos
In a general Supergravity theory (Non-universal soft supersymmetry-breaking terms in the scalar and gaugino sector) the neutralino can be within the reach of dark matter detectors for a wide range of masses.
Very light Neutralinos
Bino-like
Heavy Neutralinos
Bino-Higgsino
M1 << M2, M1 M2
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Neutralinos
• Neutralinos in the NMSSM
In the Next-to-MSSM, the neutralino has a new singlino (S) component.
The detection properties depend on the neutralino composition
~
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Neutralinos
• Large detection cross sections in the NMSSM
Squark-exchange
Higgs-exchange
Leading contribution. It can increase when
• The Higgsino components of the neutralino increase
• The Higgs masses decrease
![Page 13: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/13.jpg)
2-12-05 Durham
Neutralinos
• Large detection cross sections in the NMSSM
Higgs-exchange
Leading contribution. It can increase when
• The Higgsino components of the neutralino increase
Higgses lighter than 70 GeV and mostly singlet-like
The relic density for these neutralinos is still to be calculated.
• The Higgs masses decrease
![Page 14: SUSY in the sky: supersymmetric dark matter David G. Cerdeño Institute for Particle Physics Phenomenology Based on works with S.Baek, K.Y.Choi, C.Hugonie,](https://reader036.fdocuments.us/reader036/viewer/2022062519/5697bfb51a28abf838c9d601/html5/thumbnails/14.jpg)
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SUSY dark matter
• The lightest Neutralino
• The Gravitino
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Gravitinos
• The gravitino can be the LSP in Supergravity
The gravitino mass depends on the SUSY-breaking mechanism
Gravity-mediated
(GMSB)
Anomaly-Mediated
(AMSB)
m3/2 = O(102 – 103 GeV) ~ m, M
m3/2 = O(10-10 – 10-8 GeV) << m, M
m3/2 = O(10-2 – 102 GeV) m, M
m3/2 = O(104 – 105 GeV) >> m, M
< ~
Gauge-Mediated
Gaugino-Mediated
Gravitino LSP
Gravitino LSP in some regions of the parameter space
Gravitino not LSP
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Gravitinos
• Gravitino production mechanisms
• Thermal production
Through scattering processes and an annihilation with (s)particles during thermal expansion of the Early Universe.
• Non-thermal production
Through late decays of the NLSP (normally staus or neutralinos)
• Constraints from Nucleosynthesis
Late decays of the NLSP can generate highly energetic electromagnetic and hadronic fluxes which may alter significantly the abundances of light elements (thus spoiling the success of Big Bang Nucleosynthesis).
G~ WG~,ZG~~
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Gravitinos
• In mSUGRA
All the regions where the neutralino is the NLSP are excluded by BBN constraints. Only part of those areas with stau NLSP are left.
In order to obtain the correct relic density of dark matter thermal production alone is not sufficient. Important contributions from non-thermal production are also necessary.
In the remaining regions the Fermi vacuum is metastable. The global minimum breaks charge and/or colour.
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Summary
• The identification of dark matter is still an open problem pointing towards physics beyond the SM. Supersymmetric dark matter is one of the most attractive possibilities with an interesting future:
• The lightest neutralino (both in the MSSM and NMSSM) could explain a hypothetical detection of WIMP dark matter in the next generation experiments
• Gravitino dark matter would lead to an interesting phenomenology
– Charged observable LSP (stau)
– No detection in dark matter experiments
– The Fermi vacuum may be metastable