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Cosmological Fine Tuning, Supersymmetry, and the Gauge Hierarchy Problem
We study the extent to which the cosmological fine-tuning problem - why the relic density of neutralino cold dark matter particles $\chi$ is similar to that of baryons - is related to the fine-tuning aspect of the gauge hierarchy problem - how one arranges that M_W << M_P without unnatural cho...
| Autores principales: | , , , |
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| Lenguaje: | eng |
| Publicado: |
1998
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/S0370-2693(99)00168-9 http://cds.cern.ch/record/370549 |
| _version_ | 1780893096388591616 |
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| author | Chankowski, Piotr H. Ellis, John R. Olive, Keith A. Pokorski, Stefan |
| author_facet | Chankowski, Piotr H. Ellis, John R. Olive, Keith A. Pokorski, Stefan |
| author_sort | Chankowski, Piotr H. |
| collection | CERN |
| description | We study the extent to which the cosmological fine-tuning problem - why the relic density of neutralino cold dark matter particles $\chi$ is similar to that of baryons - is related to the fine-tuning aspect of the gauge hierarchy problem - how one arranges that M_W << M_P without unnatural choices of MSSM parameters. Working in the minimal supergravity framework with universal soft supersymmetry-breaking parameters as inputs, we find that the hierarchical fine tuning is minimized for Ømega_{\chi} h^2 \sim 0.1. Conversely, imposing exceptions to this rule are rather special, with parameters chosen such that m_{\chi}\sim M_Z/2 or M_h/2, or else m_{\chi} \simgt m_t. In the first two cases, neutralino annihilation receives a large contribution from a direct-channel pole, whereas in the third case it is enhanced by the large top Yukawa coupling. |
| id | cern-370549 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 1998 |
| record_format | invenio |
| spelling | cern-3705492023-03-14T20:37:21Zdoi:10.1016/S0370-2693(99)00168-9http://cds.cern.ch/record/370549engChankowski, Piotr H.Ellis, John R.Olive, Keith A.Pokorski, StefanCosmological Fine Tuning, Supersymmetry, and the Gauge Hierarchy ProblemParticle Physics - PhenomenologyWe study the extent to which the cosmological fine-tuning problem - why the relic density of neutralino cold dark matter particles $\chi$ is similar to that of baryons - is related to the fine-tuning aspect of the gauge hierarchy problem - how one arranges that M_W << M_P without unnatural choices of MSSM parameters. Working in the minimal supergravity framework with universal soft supersymmetry-breaking parameters as inputs, we find that the hierarchical fine tuning is minimized for Ømega_{\chi} h^2 \sim 0.1. Conversely, imposing exceptions to this rule are rather special, with parameters chosen such that m_{\chi}\sim M_Z/2 or M_h/2, or else m_{\chi} \simgt m_t. In the first two cases, neutralino annihilation receives a large contribution from a direct-channel pole, whereas in the third case it is enhanced by the large top Yukawa coupling.We study the extent to which the cosmological fine-tuning problem - why the relic density of neutralino cold dark matter particles $\chi$ is similar to that of baryons - is related to the fine-tuning aspect of the gauge hierarchy problem - how one arranges that M_W << M_P without unnatural choices of MSSM parameters. Working in the minimal supergravity framework with universal soft supersymmetry-breaking parameters as inputs, we find that the hierarchical fine tuning is minimized for \Omega_{\chi} h^2 \sim 0.1. Conversely, imposing \Omega_{\chi} h^2 < 1 does not require small hierarchical fine tuning, but the exceptions to this rule are rather special, with parameters chosen such that m_{\chi}\sim M_Z/2 or M_h/2, or else m_{\chi} \simgt m_t. In the first two cases, neutralino annihilation receives a large contribution from a direct-channel pole, whereas in the third case it is enhanced by the large top Yukawa coupling.We study the extent to which the cosmological fine-tuning problem – why the relic density of neutralino cold dark matter particles χ is similar to that of baryons – is related to the fine-tuning aspect of the gauge hierarchy problem – how one arranges that M W ≪ M P without unnatural choices of MSSM parameters. Working in the minimal supergravity framework with universal soft supersymmetry-breaking parameters as inputs, we find that the hierarchical fine tuning is minimized for Ω χ h 2 ∼0.1 . Conversely, imposing Ω χ h 2 <1 does not require small hierarchical fine tuning, but the exceptions to this rule are rather special, with parameters chosen such that m χ ∼ M Z /2 or M h /2, or else m χ ≳ m t . In the first two cases, neutralino annihilation receives a large contribution from a direct-channel pole, whereas in the third case it is enhanced by the large top Yukawa coupling.hep-ph/9811284CERN-TH-98-328IFT-98-21TPI-MINN-98-21UMN-TH-1726-98CERN-TH-98-328IFT-98-21TPI-MINN-98-21UMN-TH-1719oai:cds.cern.ch:3705491998-11-10 |
| spellingShingle | Particle Physics - Phenomenology Chankowski, Piotr H. Ellis, John R. Olive, Keith A. Pokorski, Stefan Cosmological Fine Tuning, Supersymmetry, and the Gauge Hierarchy Problem |
| title | Cosmological Fine Tuning, Supersymmetry, and the Gauge Hierarchy Problem |
| title_full | Cosmological Fine Tuning, Supersymmetry, and the Gauge Hierarchy Problem |
| title_fullStr | Cosmological Fine Tuning, Supersymmetry, and the Gauge Hierarchy Problem |
| title_full_unstemmed | Cosmological Fine Tuning, Supersymmetry, and the Gauge Hierarchy Problem |
| title_short | Cosmological Fine Tuning, Supersymmetry, and the Gauge Hierarchy Problem |
| title_sort | cosmological fine tuning, supersymmetry, and the gauge hierarchy problem |
| topic | Particle Physics - Phenomenology |
| url | https://dx.doi.org/10.1016/S0370-2693(99)00168-9 http://cds.cern.ch/record/370549 |
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