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Global Effective-Field-Theory analysis of New-Physics effects in (semi)leptonic kaon decays
We analyze the decays $K\to\pi\ell\nu$ and $P\to\ell\nu$ ($P=K,\pi$, $\ell=e,\,\mu$) using a low-energy Effective-Field-Theory approach to parametrize New Physics and study the complementarity with baryon $\beta$ decays. We then provide a road map for a global analysis of the experimental data, with...
| Autores principales: | , |
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| Lenguaje: | eng |
| Publicado: |
2016
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| Acceso en línea: | https://dx.doi.org/10.1007/JHEP12(2016)052 http://cds.cern.ch/record/2155134 |
| _version_ | 1780950654822383616 |
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| author | González-Alonso, Martín Martin Camalich, Jorge |
| author_facet | González-Alonso, Martín Martin Camalich, Jorge |
| author_sort | González-Alonso, Martín |
| collection | CERN |
| description | We analyze the decays $K\to\pi\ell\nu$ and $P\to\ell\nu$ ($P=K,\pi$, $\ell=e,\,\mu$) using a low-energy Effective-Field-Theory approach to parametrize New Physics and study the complementarity with baryon $\beta$ decays. We then provide a road map for a global analysis of the experimental data, with all the Wilson coefficients simultaneously, and perform a fit leading to numerical bounds for them and for $V_{us}$. A prominent result of our analysis is a reinterpretation of the well-known $V_{ud}-V_{us}$ diagram as a strong constraint on new physics. Finally, we reinterpret our bounds in terms of the $SU(2)_L\times~U(1)_Y$-invariant operators, provide bounds to the corresponding Wilson coefficients at the TeV scale and compare our results with collider searches at the LHC. |
| id | cern-2155134 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2016 |
| record_format | invenio |
| spelling | cern-21551342022-08-10T12:40:35Zdoi:10.1007/JHEP12(2016)052http://cds.cern.ch/record/2155134engGonzález-Alonso, MartínMartin Camalich, JorgeGlobal Effective-Field-Theory analysis of New-Physics effects in (semi)leptonic kaon decaysParticle Physics - PhenomenologyWe analyze the decays $K\to\pi\ell\nu$ and $P\to\ell\nu$ ($P=K,\pi$, $\ell=e,\,\mu$) using a low-energy Effective-Field-Theory approach to parametrize New Physics and study the complementarity with baryon $\beta$ decays. We then provide a road map for a global analysis of the experimental data, with all the Wilson coefficients simultaneously, and perform a fit leading to numerical bounds for them and for $V_{us}$. A prominent result of our analysis is a reinterpretation of the well-known $V_{ud}-V_{us}$ diagram as a strong constraint on new physics. Finally, we reinterpret our bounds in terms of the $SU(2)_L\times~U(1)_Y$-invariant operators, provide bounds to the corresponding Wilson coefficients at the TeV scale and compare our results with collider searches at the LHC.We analyze the decays K → πℓν and P → ℓν (P = K, π, ℓ = e, μ) using a low-energy Effective-Field-Theory approach to parametrize New Physics and study the complementarity with baryon β decays. We then provide a road map for a global analysis of the experimental data, with all the Wilson coefficients simultaneously, and perform a fit leading to numerical bounds for them and for V$_{us}$ . A prominent result of our analysis is a reinterpretation of the well-known V$_{ud}$ − V$_{us}$ diagram as a strong constraint on new physics. Finally, we reinterpret our bounds in terms of the SU(2)$_{L}$ × U(1)$_{Y}$ -invariant operators, provide bounds to the corresponding Wilson coefficients at the TeV scale and compare our results with collider searches at the LHC.We analyze the decays $K\to\pi\ell\nu$ and $P\to\ell\nu$ ($P=K,\pi$, $\ell=e,\,\mu$) using a low-energy Effective-Field-Theory approach to parametrize New Physics and study the complementarity with baryon $\beta$ decays. We then provide a road map for a global analysis of the experimental data, with all the Wilson coefficients simultaneously, and perform a fit leading to numerical bounds for them and for $V_{us}$. A prominent result of our analysis is a reinterpretation of the well-known $V_{ud}-V_{us}$ diagram as a strong constraint on new physics. Finally, we reinterpret our bounds in terms of the $SU(2)_L\times~U(1)_Y$-invariant operators, provide bounds to the corresponding Wilson coefficients at the TeV scale and compare our results with collider searches at the LHC.arXiv:1605.07114INT-PUB-16-014MITP-16-047INT-PUB-16-014MITP-16-047oai:cds.cern.ch:21551342016-05-23 |
| spellingShingle | Particle Physics - Phenomenology González-Alonso, Martín Martin Camalich, Jorge Global Effective-Field-Theory analysis of New-Physics effects in (semi)leptonic kaon decays |
| title | Global Effective-Field-Theory analysis of New-Physics effects in (semi)leptonic kaon decays |
| title_full | Global Effective-Field-Theory analysis of New-Physics effects in (semi)leptonic kaon decays |
| title_fullStr | Global Effective-Field-Theory analysis of New-Physics effects in (semi)leptonic kaon decays |
| title_full_unstemmed | Global Effective-Field-Theory analysis of New-Physics effects in (semi)leptonic kaon decays |
| title_short | Global Effective-Field-Theory analysis of New-Physics effects in (semi)leptonic kaon decays |
| title_sort | global effective-field-theory analysis of new-physics effects in (semi)leptonic kaon decays |
| topic | Particle Physics - Phenomenology |
| url | https://dx.doi.org/10.1007/JHEP12(2016)052 http://cds.cern.ch/record/2155134 |
| work_keys_str_mv | AT gonzalezalonsomartin globaleffectivefieldtheoryanalysisofnewphysicseffectsinsemileptonickaondecays AT martincamalichjorge globaleffectivefieldtheoryanalysisofnewphysicseffectsinsemileptonickaondecays |