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Detecting underabundant neutralinos
The electroweak sector may play a crucial role in discovering supersymmetry. We systematically investigate the patterns of the MSSM-like electroweakinos, when the neutralino relic abundance $\Omega_\chi h^2\leq 0.12$, that is, also admitting for multi-component Dark Matter, in a broad range of the p...
| Autores principales: | , , , , |
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| Lenguaje: | eng |
| Publicado: |
2015
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1007/JHEP11(2015)053 http://cds.cern.ch/record/2028672 |
| _version_ | 1780947363661086720 |
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| author | Badziak, Marcin Delgado, Antonio Olechowski, Marek Pokorski, Stefan Sakurai, Kazuki |
| author_facet | Badziak, Marcin Delgado, Antonio Olechowski, Marek Pokorski, Stefan Sakurai, Kazuki |
| author_sort | Badziak, Marcin |
| collection | CERN |
| description | The electroweak sector may play a crucial role in discovering supersymmetry. We systematically investigate the patterns of the MSSM-like electroweakinos, when the neutralino relic abundance $\Omega_\chi h^2\leq 0.12$, that is, also admitting for multi-component Dark Matter, in a broad range of the parameter space. We find that for a very large range of parameters the Direct Detection experiments are/will be sensitive to underabundant neutralinos, in spite of the strong rescaling of the flux factor. The second general conclusion is that the bound $\Omega_\chi h^2\leq 0.12$ together with the LUX (XENON1T) limits for the neutralino spin independent scattering cross sections constrain the electroweakino spectrum so that the mass differences between the NLSP and the LSP are smaller than 40 (10) GeV, respectively, with important implications for the collider searches. The future Direct Detection experiments and the high luminosity LHC run will probe almost the entire range of the LSP and NLSP mass spectrum that is consistent with the bound $\Omega_\chi h^2\leq 0.12$. |
| id | cern-2028672 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2015 |
| record_format | invenio |
| spelling | cern-20286722022-08-13T02:17:43Zdoi:10.1007/JHEP11(2015)053http://cds.cern.ch/record/2028672engBadziak, MarcinDelgado, AntonioOlechowski, MarekPokorski, StefanSakurai, KazukiDetecting underabundant neutralinosParticle Physics - PhenomenologyThe electroweak sector may play a crucial role in discovering supersymmetry. We systematically investigate the patterns of the MSSM-like electroweakinos, when the neutralino relic abundance $\Omega_\chi h^2\leq 0.12$, that is, also admitting for multi-component Dark Matter, in a broad range of the parameter space. We find that for a very large range of parameters the Direct Detection experiments are/will be sensitive to underabundant neutralinos, in spite of the strong rescaling of the flux factor. The second general conclusion is that the bound $\Omega_\chi h^2\leq 0.12$ together with the LUX (XENON1T) limits for the neutralino spin independent scattering cross sections constrain the electroweakino spectrum so that the mass differences between the NLSP and the LSP are smaller than 40 (10) GeV, respectively, with important implications for the collider searches. The future Direct Detection experiments and the high luminosity LHC run will probe almost the entire range of the LSP and NLSP mass spectrum that is consistent with the bound $\Omega_\chi h^2\leq 0.12$.The electroweak sector may play a crucial role in discovering supersymmetry. We systematically investigate the patterns of the MSSM-like electroweakinos, when the neutralino relic abundance Ω$_{χ}$ h$^{2}$ ≤ 0.12, that is, also admitting for multi-component Dark Matter, in a broad range of the parameter space. We find that for a very large range of parameters the Direct Detection experiments are/will be sensitive to underabundant neutralinos, in spite of the strong rescaling of the flux factor. The second general conclusion is that the bound Ω$_{χ}$ h$^{2}$ ≤ 0.12 together with the LUX (XENON1T) limits for the neutralino spin independent scattering cross sections constrain the electroweakino spectrum so that the mass differences between the NLSP and the LSP are smaller than 40 (10) GeV, respectively, with important implications for the collider searches. The future Direct Detection experiments and the high luminosity LHC run will probe almost the entire range of the LSP and NLSP mass spectrum that is consistent with the bound Ω$_{χ}$ h$^{2}$ ≤ 0.12.The electroweak sector may play a crucial role in discovering supersymmetry. We systematically investigate the patterns of the MSSM-like electroweakinos, when the neutralino relic abundance $\Omega_\chi h^2\leq 0.12$, that is, also admitting for multi-component Dark Matter, in a broad range of the parameter space. We find that for a very large range of parameters the Direct Detection experiments are/will be sensitive to underabundant neutralinos, in spite of the strong rescaling of the flux factor. The second general conclusion is that the bound $\Omega_\chi h^2\leq 0.12$ together with the LUX (XENON1T) limits for the neutralino spin independent scattering cross sections constrain the electroweakino spectrum so that the mass differences between the NLSP and the LSP are smaller than 40 (10) GeV, respectively, with important implications for the collider searches. The future Direct Detection experiments and the high luminosity LHC run will probe almost the entire range of the LSP and NLSP mass spectrum that is consistent with the bound $\Omega_\chi h^2\leq 0.12$.arXiv:1506.07177CERN-PH-TH-2015-141KCL-PH-TH-2015-27LCTS-2015-19CERN-PH-TH-2015-141KCL-PH-TH-2015-27LCTS-2015-19oai:cds.cern.ch:20286722015-06-23 |
| spellingShingle | Particle Physics - Phenomenology Badziak, Marcin Delgado, Antonio Olechowski, Marek Pokorski, Stefan Sakurai, Kazuki Detecting underabundant neutralinos |
| title | Detecting underabundant neutralinos |
| title_full | Detecting underabundant neutralinos |
| title_fullStr | Detecting underabundant neutralinos |
| title_full_unstemmed | Detecting underabundant neutralinos |
| title_short | Detecting underabundant neutralinos |
| title_sort | detecting underabundant neutralinos |
| topic | Particle Physics - Phenomenology |
| url | https://dx.doi.org/10.1007/JHEP11(2015)053 http://cds.cern.ch/record/2028672 |
| work_keys_str_mv | AT badziakmarcin detectingunderabundantneutralinos AT delgadoantonio detectingunderabundantneutralinos AT olechowskimarek detectingunderabundantneutralinos AT pokorskistefan detectingunderabundantneutralinos AT sakuraikazuki detectingunderabundantneutralinos |