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Anomaly induced effects in a magnetic field
We consider a modification of electrodynamics by an additional light massive vector field, interacting with the photon via Chern-Simons-like coupling. This theory predicts observable effects for the experiments studying the propagation of light in an external magnetic field, very similar to those, p...
| Autores principales: | , , |
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| Lenguaje: | eng |
| Publicado: |
2007
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/j.nuclphysb.2007.10.006 http://cds.cern.ch/record/1052683 |
| _version_ | 1780912932988649472 |
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| author | Antoniadis, Ignatios Boyarsky, Alexey Ruchayskiy, Oleg |
| author_facet | Antoniadis, Ignatios Boyarsky, Alexey Ruchayskiy, Oleg |
| author_sort | Antoniadis, Ignatios |
| collection | CERN |
| description | We consider a modification of electrodynamics by an additional light massive vector field, interacting with the photon via Chern-Simons-like coupling. This theory predicts observable effects for the experiments studying the propagation of light in an external magnetic field, very similar to those, predicted by theories of axion and axion-like particles. We discuss a possible microscopic origin of this theory from a theory with non-trivial gauge anomaly cancellation between massive and light particles (including, for example, millicharged fermions). Due to the conservation of the gauge current, the production of the new vector field is suppressed at high energies. As a result, this theory can avoid both stellar bounds (which exist for axions) and the bounds from CMB considered recently, allowing for positive results in experiments like ALPS, LIPPS, OSQAR, PVLAS-2, BMV, Q&A, etc. |
| id | cern-1052683 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2007 |
| record_format | invenio |
| spelling | cern-10526832023-10-04T08:49:32Zdoi:10.1016/j.nuclphysb.2007.10.006http://cds.cern.ch/record/1052683engAntoniadis, IgnatiosBoyarsky, AlexeyRuchayskiy, OlegAnomaly induced effects in a magnetic fieldParticle Physics - PhenomenologyWe consider a modification of electrodynamics by an additional light massive vector field, interacting with the photon via Chern-Simons-like coupling. This theory predicts observable effects for the experiments studying the propagation of light in an external magnetic field, very similar to those, predicted by theories of axion and axion-like particles. We discuss a possible microscopic origin of this theory from a theory with non-trivial gauge anomaly cancellation between massive and light particles (including, for example, millicharged fermions). Due to the conservation of the gauge current, the production of the new vector field is suppressed at high energies. As a result, this theory can avoid both stellar bounds (which exist for axions) and the bounds from CMB considered recently, allowing for positive results in experiments like ALPS, LIPPS, OSQAR, PVLAS-2, BMV, Q&A, etc.We consider a modification of electrodynamics by an additional light massive vector field, interacting with the photon via Chern–Simons-like coupling. This theory predicts observable effects for the experiments studying the propagation of light in an external magnetic field, very similar to those, predicted by theories of axion and axion-like particles. We discuss a possible microscopic origin of this theory from a theory with non-trivial gauge anomaly cancellation between massive and light particles (including, for example, millicharged fermions). Due to the conservation of the gauge current, the production of the new vector field is suppressed at high energies. As a result, this theory can avoid both stellar bounds (which exist for axions) and the bounds from CMB considered recently, allowing for positive results in experiments like ALPS, LIPPS, OSQAR, PVLAS-2, BMV, Q&A;, etc.We consider a modification of electrodynamics by an additional light massive vector field, interacting with the photon via Chern-Simons-like coupling. This theory predicts observable effects for the experiments studying the propagation of light in an external magnetic field, very similar to those, predicted by theories of axion and axion-like particles. We discuss a possible microscopic origin of this theory from a theory with non-trivial gauge anomaly cancellation between massive and light particles (including, for example, millicharged fermions). Due to the conservation of the gauge current, the production of the new vector field is suppressed at high energies. As a result, this theory can avoid both stellar bounds (which exist for axions) and the bounds from CMB considered recently, allowing for positive results in experiments like ALPS, LIPPS, OSQAR, PVLAS-2, BMV, Q&A, etc.arXiv:0708.3001CERN-PH-TH-2007-135CERN-PH-TH-2007-135oai:cds.cern.ch:10526832007-08-23 |
| spellingShingle | Particle Physics - Phenomenology Antoniadis, Ignatios Boyarsky, Alexey Ruchayskiy, Oleg Anomaly induced effects in a magnetic field |
| title | Anomaly induced effects in a magnetic field |
| title_full | Anomaly induced effects in a magnetic field |
| title_fullStr | Anomaly induced effects in a magnetic field |
| title_full_unstemmed | Anomaly induced effects in a magnetic field |
| title_short | Anomaly induced effects in a magnetic field |
| title_sort | anomaly induced effects in a magnetic field |
| topic | Particle Physics - Phenomenology |
| url | https://dx.doi.org/10.1016/j.nuclphysb.2007.10.006 http://cds.cern.ch/record/1052683 |
| work_keys_str_mv | AT antoniadisignatios anomalyinducedeffectsinamagneticfield AT boyarskyalexey anomalyinducedeffectsinamagneticfield AT ruchayskiyoleg anomalyinducedeffectsinamagneticfield |