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An homeopathic cure to pure Xenon large diffusion
The NEXT neutrinoless double beta decay experiment will use a high- pressure gas electroluminescence-based TPC to search for the decay of Xe-136. One of the main advantages of this technology is the possibility to reconstruct the topology of events with energies close to Qbb. The rejection potential...
| Autores principales: | , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2015
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1088/1748-0221/11/02/C02007 http://cds.cern.ch/record/2104961 |
| _version_ | 1780948793985859584 |
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| author | Azevedo, C.D.R. Fernandes, L.M.P. Freitas, E.D.C. Gonzalez-Diaz, D. Monrabal, F. Monteiro, C.M.B. dos Santos, J. M. F. Veloso, J.F.C.A. Gomez-Cadenas, J. J |
| author_facet | Azevedo, C.D.R. Fernandes, L.M.P. Freitas, E.D.C. Gonzalez-Diaz, D. Monrabal, F. Monteiro, C.M.B. dos Santos, J. M. F. Veloso, J.F.C.A. Gomez-Cadenas, J. J |
| author_sort | Azevedo, C.D.R. |
| collection | CERN |
| description | The NEXT neutrinoless double beta decay experiment will use a high- pressure gas electroluminescence-based TPC to search for the decay of Xe-136. One of the main advantages of this technology is the possibility to reconstruct the topology of events with energies close to Qbb. The rejection potential associated to the topology reconstruction is limited by our capacity to prop- erly reconstruct the original path of the electrons in the gas. This reconstruction is limited by different factors that include the geometry of the detector, the density of the sensors in the tracking plane and the separation among them, etc. Ultimately, the resolution is limited by the physics of electron diffusion in the gas. In this paper we present a series of molecular additives that can be used in Xenon gas at very low partial pressure to reduce both longitudinal and transverse diffusion. We will show the results of different Monte-Carlo simulations of electron transport in the gas mixtures from wich we have extracted the value of some important parameters like diffusion, drift velocity and light yields. These results show that there is a series of candidates that can reduce diffusion without affecting the energy resolution of the detector and they should be studied experimentally. A comparison with preliminary results from such an ongoing experimental effort is given. |
| id | cern-2104961 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2015 |
| record_format | invenio |
| spelling | cern-21049612023-03-14T18:34:15Zdoi:10.1088/1748-0221/11/02/C02007http://cds.cern.ch/record/2104961engAzevedo, C.D.R.Fernandes, L.M.P.Freitas, E.D.C.Gonzalez-Diaz, D.Monrabal, F.Monteiro, C.M.B.dos Santos, J. M. F.Veloso, J.F.C.A.Gomez-Cadenas, J. JAn homeopathic cure to pure Xenon large diffusionDetectors and Experimental TechniquesThe NEXT neutrinoless double beta decay experiment will use a high- pressure gas electroluminescence-based TPC to search for the decay of Xe-136. One of the main advantages of this technology is the possibility to reconstruct the topology of events with energies close to Qbb. The rejection potential associated to the topology reconstruction is limited by our capacity to prop- erly reconstruct the original path of the electrons in the gas. This reconstruction is limited by different factors that include the geometry of the detector, the density of the sensors in the tracking plane and the separation among them, etc. Ultimately, the resolution is limited by the physics of electron diffusion in the gas. In this paper we present a series of molecular additives that can be used in Xenon gas at very low partial pressure to reduce both longitudinal and transverse diffusion. We will show the results of different Monte-Carlo simulations of electron transport in the gas mixtures from wich we have extracted the value of some important parameters like diffusion, drift velocity and light yields. These results show that there is a series of candidates that can reduce diffusion without affecting the energy resolution of the detector and they should be studied experimentally. A comparison with preliminary results from such an ongoing experimental effort is given.The NEXT neutrinoless double beta decay (ββ0ν) experiment will use a high-pressure gas electroluminescence-based TPC to search for the decay of Xe-136. One of the main advantages of this technology is the possibility to reconstruct the topology of events with energies close to Q(β)(β). The rejection potential associated to the topology reconstruction is limited by our capacity to properly reconstruct the original path of the electrons in the gas. This reconstruction is limited by different factors that include the geometry of the detector, the density of the sensors in the tracking plane and the separation among them, etc. Ultimately, the resolution is limited by the physics of electron diffusion in the gas. In this paper we present a series of molecular additives that can be used in Xenon gas at very low partial pressure to reduce both longitudinal and transverse diffusion. We will show the results of different Monte-Carlo simulations of electron transport in the gas mixtures from wich we have extracted the value of some important parameters like diffusion, drift velocity and light yields. These results show that there is a series of candidates that can reduce diffusion without affecting the energy resolution of the detector and they should be studied experimentally. A comparison with preliminary results from such an ongoing experimental effort is given.The NEXT neutrinoless double beta decay experiment will use a high- pressure gas electroluminescence-based TPC to search for the decay of Xe-136. One of the main advantages of this technology is the possibility to reconstruct the topology of events with energies close to Qbb. The rejection potential associated to the topology reconstruction is limited by our capacity to prop- erly reconstruct the original path of the electrons in the gas. This reconstruction is limited by different factors that include the geometry of the detector, the density of the sensors in the tracking plane and the separation among them, etc. Ultimately, the resolution is limited by the physics of electron diffusion in the gas. In this paper we present a series of molecular additives that can be used in Xenon gas at very low partial pressure to reduce both longitudinal and transverse diffusion. We will show the results of different Monte-Carlo simulations of electron transport in the gas mixtures from wich we have extracted the value of some important parameters like diffusion, drift velocity and light yields. These results show that there is a series of candidates that can reduce diffusion without affecting the energy resolution of the detector and they should be studied experimentally. A comparison with preliminary results from such an ongoing experimental effort is given.arXiv:1511.07189oai:cds.cern.ch:21049612015-11-23 |
| spellingShingle | Detectors and Experimental Techniques Azevedo, C.D.R. Fernandes, L.M.P. Freitas, E.D.C. Gonzalez-Diaz, D. Monrabal, F. Monteiro, C.M.B. dos Santos, J. M. F. Veloso, J.F.C.A. Gomez-Cadenas, J. J An homeopathic cure to pure Xenon large diffusion |
| title | An homeopathic cure to pure Xenon large diffusion |
| title_full | An homeopathic cure to pure Xenon large diffusion |
| title_fullStr | An homeopathic cure to pure Xenon large diffusion |
| title_full_unstemmed | An homeopathic cure to pure Xenon large diffusion |
| title_short | An homeopathic cure to pure Xenon large diffusion |
| title_sort | homeopathic cure to pure xenon large diffusion |
| topic | Detectors and Experimental Techniques |
| url | https://dx.doi.org/10.1088/1748-0221/11/02/C02007 http://cds.cern.ch/record/2104961 |
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