Neutral Bremsstrahlung Emission in Xenon Unveiled

Detalhes bibliográficos
Autor(a) principal: Henriques, C. A. O.
Data de Publicação: 2022
Outros Autores: Amedo, P., Teixeira, J. M. R., González-Díaz, D., Azevedo, C. D. R., Para, A., Martín-Albo, J, Hernandez, A. Saa, Gomez-Cadenas, J. J., Nygren, D. R., Monteiro, C. M. B., Adams, C., Álvarez, V, Arazi, L., Arnquist, I. J., Bailey, K., Ballester, F., Benlloch-Rodríguez, J. M., Borges, F. I. G. M., Byrnes, N., Cárcel, S., Carrión, J. V., Cebrián, S., Church, E., Conde, C. A. N., Contreras, T., Díaz, G., Díaz, J., Diesburg, M., Escada, J., Esteve, R, Felkai, R., Fernandes, A. F. M., Fernandes, L. M. P., Ferrario, P, Ferreira, A L, Freitas, E. D. C., Generowicz, J., Ghosh, S., Goldschmidt, A, Guenette, R., Gutiérrez, R. M., Haefner, J., Hafidi, K., Hauptman, J, Hernando Morata, J. A., Herrero, P., Herrero, V., Ifergan, Y., Johnston, S., Jones, B. J. P., Kekic, M., Labarga, L., Laing, A, Lebrun, P., López-March, N., Losada, M, Mano, R.D.P., Martínez, A., Martínez-Vara, M., Martínez-Lema, G., McDonald, A. D., Monrabal, F, Mora, F J, Muñoz Vidal, J., Novella, P., Palmeiro, B., Pérez, J, Querol, M., Redwine, A. B., Renner, J, Repond, J., Riordan, S., Ripoll, L, Rodríguez García, Y., Rodríguez, J, Rogers, L., Romeo, B., Romo-Luque, C., Santos, F. P., dos Santos, J. M. F., Simón, A, Sofka, C, Sorel, M, Stiegler, T., Toledo, J F, Torrent, J, Usón, A., Veloso, J. F. C. A., Webb, R., Weiss-Babai, R., White, J. T., Woodruff, K., Yahlali, N
Tipo de documento: Artigo
Idioma: eng
Título da fonte: Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)
Texto Completo: http://hdl.handle.net/10316/99757
https://doi.org/10.1103/PhysRevX.12.021005
Resumo: POPULAR SUMMARY When ionizing radiation interacts with xenon, copious amounts of ultraviolet light are emitted at particular wavelengths—an “electroluminescence” that is leveraged in dark matter searches and neutrino detectors. But researchers were not aware of the presence of another, fainter, light emission over a broader wavelength range, from the ultraviolet to the near infrared. Therefore, scientists explained the corresponding light pulses as being due to impurities in the gas. Here, we show that these pulses are instead signals of a new kind of light emitted in xenon, caused by the scattering of electrons onto neutral atoms. Using studies in a small laboratory system expressly conceived for this purpose, we identify this light—dubbed neutral bremsstrahlung—in the large detector of the NEXT experiment, an underground particle detector in Spain. Given the smallness of our detector, its xenon purity is very well controlled. In addition, we can precisely isolate the scintillation emission from a specific region of the detector and study this emission under very well controlled conditions, both when electroluminescence can and cannot occur. This allows us to observe and study scintillation emission other than electroluminescence. Simultaneously, we implement a robust theoretical model for the neutral bremsstrahlung, which describes the experimental data very well and allows us to unambiguously assign the observed scintillation mechanism to neutral bremsstrahlung. Now, scientists know that discovering dark matter and observing neutrinos requires more than just making the xenon pure inside of large detector systems. Researchers should also separate the light due to neutral bremsstrahlung to optimize the design of the detectors and to improve their sensitivity.
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spelling Neutral Bremsstrahlung Emission in Xenon UnveiledPOPULAR SUMMARY When ionizing radiation interacts with xenon, copious amounts of ultraviolet light are emitted at particular wavelengths—an “electroluminescence” that is leveraged in dark matter searches and neutrino detectors. But researchers were not aware of the presence of another, fainter, light emission over a broader wavelength range, from the ultraviolet to the near infrared. Therefore, scientists explained the corresponding light pulses as being due to impurities in the gas. Here, we show that these pulses are instead signals of a new kind of light emitted in xenon, caused by the scattering of electrons onto neutral atoms. Using studies in a small laboratory system expressly conceived for this purpose, we identify this light—dubbed neutral bremsstrahlung—in the large detector of the NEXT experiment, an underground particle detector in Spain. Given the smallness of our detector, its xenon purity is very well controlled. In addition, we can precisely isolate the scintillation emission from a specific region of the detector and study this emission under very well controlled conditions, both when electroluminescence can and cannot occur. This allows us to observe and study scintillation emission other than electroluminescence. Simultaneously, we implement a robust theoretical model for the neutral bremsstrahlung, which describes the experimental data very well and allows us to unambiguously assign the observed scintillation mechanism to neutral bremsstrahlung. Now, scientists know that discovering dark matter and observing neutrinos requires more than just making the xenon pure inside of large detector systems. Researchers should also separate the light due to neutral bremsstrahlung to optimize the design of the detectors and to improve their sensitivity.The NEXT Collaboration acknowledges support from the following agencies and institutions: the European Research Council (ERC) under Advanced Grant No. 339787-NEXT; the European Unions Framework Program for Research and Innovation Horizon 2020 (20142020) under Grant Agreements No. 674896 No. 690575, and No. 740055; the Ministerio de Economa y Competitividad and the Ministerio de Ciencia, Innovacin y Universidades of Spain under Grants No. FIS2014- 53371-C04 and No. RTI2018-095979, the Severo Ochoa Program Grants No. SEV-2014-0398 and No. CEX2018- 000867-S, and the Mara de Maeztu Program MDM-2016-0692; the Generalitat Valenciana under Grants No. PROMETEO/2016/120 and No. SEJI/2017/011; the Portuguese FCT under Project No. PTDC/FIS-NUC/3933/2021 and under Project No. UIDP/04559/2020 to fund the activities of LIBPhys-UC; the U.S. Department of Energy under Contracts No. DE-AC02-06CH11357 (Argonne National Laboratory), No. DE-AC02-07CH11359 (Fermi National Accelerator Laboratory), No. DE-FG02-13ER42020 (Texas A&M), and No. DE-SC0019223/DE-SC0019054 (University of Texas at Arlington); and the University of Texas at Arlington (USA). D. G.-D. acknowledges Ramón y Cajal program (Spain) under Contract No. RYC- 2015- 18820. J. M.-A. acknowledges support from Fundacin Bancaria la Caixa (ID 100010434), Grant No. LCF/BQ/ PI19/11690012. We would like to thank Lorenzo Muñiz for insightful discussions on the subtleties of electron transport in gasesAmerican Physical Society2022info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articlehttp://hdl.handle.net/10316/99757http://hdl.handle.net/10316/99757https://doi.org/10.1103/PhysRevX.12.021005eng2160-3308Henriques, C. A. O.Amedo, P.Teixeira, J. M. R.González-Díaz, D.Azevedo, C. D. R.Para, A.Martín-Albo, JHernandez, A. SaaGomez-Cadenas, J. J.Nygren, D. R.Monteiro, C. M. B.Adams, C.Álvarez, VArazi, L.Arnquist, I. J.Bailey, K.Ballester, F.Benlloch-Rodríguez, J. M.Borges, F. I. G. M.Byrnes, N.Cárcel, S.Carrión, J. V.Cebrián, S.Church, E.Conde, C. A. N.Contreras, T.Díaz, G.Díaz, J.Diesburg, M.Escada, J.Esteve, RFelkai, R.Fernandes, A. F. M.Fernandes, L. M. P.Ferrario, PFerreira, A LFreitas, E. D. C.Generowicz, J.Ghosh, S.Goldschmidt, AGuenette, R.Gutiérrez, R. M.Haefner, J.Hafidi, K.Hauptman, JHernando Morata, J. A.Herrero, P.Herrero, V.Ifergan, Y.Johnston, S.Jones, B. J. P.Kekic, M.Labarga, L.Laing, ALebrun, P.López-March, N.Losada, MMano, R.D.P.Martínez, A.Martínez-Vara, M.Martínez-Lema, G.McDonald, A. D.Monrabal, FMora, F JMuñoz Vidal, J.Novella, P.Palmeiro, B.Pérez, JQuerol, M.Redwine, A. B.Renner, JRepond, J.Riordan, S.Ripoll, LRodríguez García, Y.Rodríguez, JRogers, L.Romeo, B.Romo-Luque, C.Santos, F. P.dos Santos, J. M. F.Simón, ASofka, CSorel, MStiegler, T.Toledo, J FTorrent, JUsón, A.Veloso, J. F. C. A.Webb, R.Weiss-Babai, R.White, J. T.Woodruff, K.Yahlali, Ninfo:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2023-01-30T11:59:18ZPortal AgregadorONG
dc.title.none.fl_str_mv Neutral Bremsstrahlung Emission in Xenon Unveiled
title Neutral Bremsstrahlung Emission in Xenon Unveiled
spellingShingle Neutral Bremsstrahlung Emission in Xenon Unveiled
Henriques, C. A. O.
title_short Neutral Bremsstrahlung Emission in Xenon Unveiled
title_full Neutral Bremsstrahlung Emission in Xenon Unveiled
title_fullStr Neutral Bremsstrahlung Emission in Xenon Unveiled
title_full_unstemmed Neutral Bremsstrahlung Emission in Xenon Unveiled
title_sort Neutral Bremsstrahlung Emission in Xenon Unveiled
author Henriques, C. A. O.
author_facet Henriques, C. A. O.
Amedo, P.
Teixeira, J. M. R.
González-Díaz, D.
Azevedo, C. D. R.
Para, A.
Martín-Albo, J
Hernandez, A. Saa
Gomez-Cadenas, J. J.
Nygren, D. R.
Monteiro, C. M. B.
Adams, C.
Álvarez, V
Arazi, L.
Arnquist, I. J.
Bailey, K.
Ballester, F.
Benlloch-Rodríguez, J. M.
Borges, F. I. G. M.
Byrnes, N.
Cárcel, S.
Carrión, J. V.
Cebrián, S.
Church, E.
Conde, C. A. N.
Contreras, T.
Díaz, G.
Díaz, J.
Diesburg, M.
Escada, J.
Esteve, R
Felkai, R.
Fernandes, A. F. M.
Fernandes, L. M. P.
Ferrario, P
Ferreira, A L
Freitas, E. D. C.
Generowicz, J.
Ghosh, S.
Goldschmidt, A
Guenette, R.
Gutiérrez, R. M.
Haefner, J.
Hafidi, K.
Hauptman, J
Hernando Morata, J. A.
Herrero, P.
Herrero, V.
Ifergan, Y.
Johnston, S.
Jones, B. J. P.
Kekic, M.
Labarga, L.
Laing, A
Lebrun, P.
López-March, N.
Losada, M
Mano, R.D.P.
Martínez, A.
Martínez-Vara, M.
Martínez-Lema, G.
McDonald, A. D.
Monrabal, F
Mora, F J
Muñoz Vidal, J.
Novella, P.
Palmeiro, B.
Pérez, J
Querol, M.
Redwine, A. B.
Renner, J
Repond, J.
Riordan, S.
Ripoll, L
Rodríguez García, Y.
Rodríguez, J
Rogers, L.
Romeo, B.
Romo-Luque, C.
Santos, F. P.
dos Santos, J. M. F.
Simón, A
Sofka, C
Sorel, M
Stiegler, T.
Toledo, J F
Torrent, J
Usón, A.
Veloso, J. F. C. A.
Webb, R.
Weiss-Babai, R.
White, J. T.
Woodruff, K.
Yahlali, N
author_role author
author2 Amedo, P.
Teixeira, J. M. R.
González-Díaz, D.
Azevedo, C. D. R.
Para, A.
Martín-Albo, J
Hernandez, A. Saa
Gomez-Cadenas, J. J.
Nygren, D. R.
Monteiro, C. M. B.
Adams, C.
Álvarez, V
Arazi, L.
Arnquist, I. J.
Bailey, K.
Ballester, F.
Benlloch-Rodríguez, J. M.
Borges, F. I. G. M.
Byrnes, N.
Cárcel, S.
Carrión, J. V.
Cebrián, S.
Church, E.
Conde, C. A. N.
Contreras, T.
Díaz, G.
Díaz, J.
Diesburg, M.
Escada, J.
Esteve, R
Felkai, R.
Fernandes, A. F. M.
Fernandes, L. M. P.
Ferrario, P
Ferreira, A L
Freitas, E. D. C.
Generowicz, J.
Ghosh, S.
Goldschmidt, A
Guenette, R.
Gutiérrez, R. M.
Haefner, J.
Hafidi, K.
Hauptman, J
Hernando Morata, J. A.
Herrero, P.
Herrero, V.
Ifergan, Y.
Johnston, S.
Jones, B. J. P.
Kekic, M.
Labarga, L.
Laing, A
Lebrun, P.
López-March, N.
Losada, M
Mano, R.D.P.
Martínez, A.
Martínez-Vara, M.
Martínez-Lema, G.
McDonald, A. D.
Monrabal, F
Mora, F J
Muñoz Vidal, J.
Novella, P.
Palmeiro, B.
Pérez, J
Querol, M.
Redwine, A. B.
Renner, J
Repond, J.
Riordan, S.
Ripoll, L
Rodríguez García, Y.
Rodríguez, J
Rogers, L.
Romeo, B.
Romo-Luque, C.
Santos, F. P.
dos Santos, J. M. F.
Simón, A
Sofka, C
Sorel, M
Stiegler, T.
Toledo, J F
Torrent, J
Usón, A.
Veloso, J. F. C. A.
Webb, R.
Weiss-Babai, R.
White, J. T.
Woodruff, K.
Yahlali, N
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dc.contributor.author.fl_str_mv Henriques, C. A. O.
Amedo, P.
Teixeira, J. M. R.
González-Díaz, D.
Azevedo, C. D. R.
Para, A.
Martín-Albo, J
Hernandez, A. Saa
Gomez-Cadenas, J. J.
Nygren, D. R.
Monteiro, C. M. B.
Adams, C.
Álvarez, V
Arazi, L.
Arnquist, I. J.
Bailey, K.
Ballester, F.
Benlloch-Rodríguez, J. M.
Borges, F. I. G. M.
Byrnes, N.
Cárcel, S.
Carrión, J. V.
Cebrián, S.
Church, E.
Conde, C. A. N.
Contreras, T.
Díaz, G.
Díaz, J.
Diesburg, M.
Escada, J.
Esteve, R
Felkai, R.
Fernandes, A. F. M.
Fernandes, L. M. P.
Ferrario, P
Ferreira, A L
Freitas, E. D. C.
Generowicz, J.
Ghosh, S.
Goldschmidt, A
Guenette, R.
Gutiérrez, R. M.
Haefner, J.
Hafidi, K.
Hauptman, J
Hernando Morata, J. A.
Herrero, P.
Herrero, V.
Ifergan, Y.
Johnston, S.
Jones, B. J. P.
Kekic, M.
Labarga, L.
Laing, A
Lebrun, P.
López-March, N.
Losada, M
Mano, R.D.P.
Martínez, A.
Martínez-Vara, M.
Martínez-Lema, G.
McDonald, A. D.
Monrabal, F
Mora, F J
Muñoz Vidal, J.
Novella, P.
Palmeiro, B.
Pérez, J
Querol, M.
Redwine, A. B.
Renner, J
Repond, J.
Riordan, S.
Ripoll, L
Rodríguez García, Y.
Rodríguez, J
Rogers, L.
Romeo, B.
Romo-Luque, C.
Santos, F. P.
dos Santos, J. M. F.
Simón, A
Sofka, C
Sorel, M
Stiegler, T.
Toledo, J F
Torrent, J
Usón, A.
Veloso, J. F. C. A.
Webb, R.
Weiss-Babai, R.
White, J. T.
Woodruff, K.
Yahlali, N
description POPULAR SUMMARY When ionizing radiation interacts with xenon, copious amounts of ultraviolet light are emitted at particular wavelengths—an “electroluminescence” that is leveraged in dark matter searches and neutrino detectors. But researchers were not aware of the presence of another, fainter, light emission over a broader wavelength range, from the ultraviolet to the near infrared. Therefore, scientists explained the corresponding light pulses as being due to impurities in the gas. Here, we show that these pulses are instead signals of a new kind of light emitted in xenon, caused by the scattering of electrons onto neutral atoms. Using studies in a small laboratory system expressly conceived for this purpose, we identify this light—dubbed neutral bremsstrahlung—in the large detector of the NEXT experiment, an underground particle detector in Spain. Given the smallness of our detector, its xenon purity is very well controlled. In addition, we can precisely isolate the scintillation emission from a specific region of the detector and study this emission under very well controlled conditions, both when electroluminescence can and cannot occur. This allows us to observe and study scintillation emission other than electroluminescence. Simultaneously, we implement a robust theoretical model for the neutral bremsstrahlung, which describes the experimental data very well and allows us to unambiguously assign the observed scintillation mechanism to neutral bremsstrahlung. Now, scientists know that discovering dark matter and observing neutrinos requires more than just making the xenon pure inside of large detector systems. Researchers should also separate the light due to neutral bremsstrahlung to optimize the design of the detectors and to improve their sensitivity.
publishDate 2022
dc.date.none.fl_str_mv 2022
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
format article
status_str publishedVersion
dc.identifier.uri.fl_str_mv http://hdl.handle.net/10316/99757
http://hdl.handle.net/10316/99757
https://doi.org/10.1103/PhysRevX.12.021005
url http://hdl.handle.net/10316/99757
https://doi.org/10.1103/PhysRevX.12.021005
dc.language.iso.fl_str_mv eng
language eng
dc.relation.none.fl_str_mv 2160-3308
dc.rights.driver.fl_str_mv info:eu-repo/semantics/openAccess
eu_rights_str_mv openAccess
dc.publisher.none.fl_str_mv American Physical Society
publisher.none.fl_str_mv American Physical Society
dc.source.none.fl_str_mv reponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)
instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informação
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collection Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)
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repository.mail.fl_str_mv
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