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Promising Technologies and R&D Directions for the Future Muon Collider Detectors
Among the post-LHC generation of particle accelerators, the muon collider represents a unique machine with capability to provide very high energy leptonic collisions and to open the path to a vast and mostly unexplored physics programme. However, on the experimental side, such great physics potentia...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2022
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| Materias: | |
| Acceso en línea: | http://cds.cern.ch/record/2847513 |
| _version_ | 1780976789390098432 |
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| author | Jindariani, S. Meloni, F. Aimè, C. Bartosik, N. Barzi, E. Bertolin, A. Braghieri, A. Buonincontri, L. Calzaferri, S. Casarsa, M. Catanesi, M.G. Cerri, A. Chachamis, G. Colaleo, A. Curatolo, C. Da Molin, G. Delahaye, J. Di Micco, B. Dorigo, T. Errico, F. Fiorina, D. Gianelle, A. Giraldin, C. Hauptman, J. Holmes, T.R. Krizka, K. Lee, L. Long, K.R. Lucchesi, D. Mokhov, N. Montella, A. Nardi, F. Neufeld, N. Neuffer, D. Pagan Griso, S. Pellecchia, A. Potamianos, K. Radicioni, E. Radogna, R. Riccardi, C. Ristori, L. Rossi, L. Salvini, P. Schulte, D. Sestini, L. Shiltsev, V. Simone, F.M. Stamerra, A. Sun, X. Tang, J. Thompson, E.A. Vai, I. Valle, N. Venditti, R. Verwilligen, P. Vitulo, P. Weber, H. Yonehara, K. Zaza, A. Agashe, K. Allanach, B.C. Asadi, P. Mahmoud., M.A. Azatov, A. Batsch, F. Bersani, A. Biagini, M.E. Black, K.M. Bogacz, S.A. Bonesini, M. Bross, A. Buttazzo, D. Caiffi, B. Calderini, G. Capdevilla, R. Castelli, L. Cesarotti, C. Chacko, Z. Chancé, A. Chen, S. Chien, Y.-T. Costa, M. Craig, N. Curtin, D. D'Agnolo, R.T. Dam, M. Damerau, H. Dasu, S. de Blas, J. De Matteis, E. Deandrea, A. Delgado, A. Denizli, H. Dermisek, R. Di Petrillo, K.F. Dickinson, J. Everaerts, P. Everett, L. Farinon, S. Ferretti, G. Filthaut, F. Forslund, M. Franceschini, R. Gabrielli, E. Garosi, F. Giambastiani, L. Glioti, A. Gray, L. Greljo, A. Grojean, C. Gu, J. Han, C. Han, T. Henning, B. Hermanek, K. Homiller, S. Jana, S. Jia, H. Kahn, Y. Kaplan, D.M. Kilian, W. Kong, K. Koppenburg, P. Krintiras, G.K. Li, W. Li, Q. Liu, Z. Lu, Q. Ma, Y. Maltoni, F. Mantani, L. Mariotto, S. Marzocca, D. Mastrapasqua, P. Matchev, K. Mazzacane, A. McGinnis, N. Meade, P. Mele, B. Merkel, P. Merlassino, C. Mishra, R.K. Mohammadi, A. Mohapatra, R. Montagna, P. Musenich, R. Nomura, Y. Ojalvo, I. Panci, P. Paradisi, P. Perloff, A. Piccinini, F. Pierini, M. Prioli, M. Procura, M. Raubenheimer, T. Redigolo, D. Reina, L. Reuter, J. Riva, F. Robens, T. Sala, F. Salko, J. Salvioni, E. Santiago, J. Sarra, I. Schieck, J. Selvaggi, M. Senol, A. Sharma, V. Sorbi, M. Stark, G. Statera, M. Stupak, J. Su, S. Sundrum, R. Swiatlowski, M. Torre, R. Tortora, L. Trifinopoulos, S. Valente, M. Valente, R.U. Vittorio, L. Vryonidou, E. Vuosalo, C. Wendt, M. Wu, Y. Wulzer, A. Xie, K. Yu, H.-B. Zheng, Y.J. Zurita, J. |
| author_facet | Jindariani, S. Meloni, F. Aimè, C. Bartosik, N. Barzi, E. Bertolin, A. Braghieri, A. Buonincontri, L. Calzaferri, S. Casarsa, M. Catanesi, M.G. Cerri, A. Chachamis, G. Colaleo, A. Curatolo, C. Da Molin, G. Delahaye, J. Di Micco, B. Dorigo, T. Errico, F. Fiorina, D. Gianelle, A. Giraldin, C. Hauptman, J. Holmes, T.R. Krizka, K. Lee, L. Long, K.R. Lucchesi, D. Mokhov, N. Montella, A. Nardi, F. Neufeld, N. Neuffer, D. Pagan Griso, S. Pellecchia, A. Potamianos, K. Radicioni, E. Radogna, R. Riccardi, C. Ristori, L. Rossi, L. Salvini, P. Schulte, D. Sestini, L. Shiltsev, V. Simone, F.M. Stamerra, A. Sun, X. Tang, J. Thompson, E.A. Vai, I. Valle, N. Venditti, R. Verwilligen, P. Vitulo, P. Weber, H. Yonehara, K. Zaza, A. Agashe, K. Allanach, B.C. Asadi, P. Mahmoud., M.A. Azatov, A. Batsch, F. Bersani, A. Biagini, M.E. Black, K.M. Bogacz, S.A. Bonesini, M. Bross, A. Buttazzo, D. Caiffi, B. Calderini, G. Capdevilla, R. Castelli, L. Cesarotti, C. Chacko, Z. Chancé, A. Chen, S. Chien, Y.-T. Costa, M. Craig, N. Curtin, D. D'Agnolo, R.T. Dam, M. Damerau, H. Dasu, S. de Blas, J. De Matteis, E. Deandrea, A. Delgado, A. Denizli, H. Dermisek, R. Di Petrillo, K.F. Dickinson, J. Everaerts, P. Everett, L. Farinon, S. Ferretti, G. Filthaut, F. Forslund, M. Franceschini, R. Gabrielli, E. Garosi, F. Giambastiani, L. Glioti, A. Gray, L. Greljo, A. Grojean, C. Gu, J. Han, C. Han, T. Henning, B. Hermanek, K. Homiller, S. Jana, S. Jia, H. Kahn, Y. Kaplan, D.M. Kilian, W. Kong, K. Koppenburg, P. Krintiras, G.K. Li, W. Li, Q. Liu, Z. Lu, Q. Ma, Y. Maltoni, F. Mantani, L. Mariotto, S. Marzocca, D. Mastrapasqua, P. Matchev, K. Mazzacane, A. McGinnis, N. Meade, P. Mele, B. Merkel, P. Merlassino, C. Mishra, R.K. Mohammadi, A. Mohapatra, R. Montagna, P. Musenich, R. Nomura, Y. Ojalvo, I. Panci, P. Paradisi, P. Perloff, A. Piccinini, F. Pierini, M. Prioli, M. Procura, M. Raubenheimer, T. Redigolo, D. Reina, L. Reuter, J. Riva, F. Robens, T. Sala, F. Salko, J. Salvioni, E. Santiago, J. Sarra, I. Schieck, J. Selvaggi, M. Senol, A. Sharma, V. Sorbi, M. Stark, G. Statera, M. Stupak, J. Su, S. Sundrum, R. Swiatlowski, M. Torre, R. Tortora, L. Trifinopoulos, S. Valente, M. Valente, R.U. Vittorio, L. Vryonidou, E. Vuosalo, C. Wendt, M. Wu, Y. Wulzer, A. Xie, K. Yu, H.-B. Zheng, Y.J. Zurita, J. |
| author_sort | Jindariani, S. |
| collection | CERN |
| description | Among the post-LHC generation of particle accelerators, the muon collider represents a unique machine with capability to provide very high energy leptonic collisions and to open the path to a vast and mostly unexplored physics programme. However, on the experimental side, such great physics potential is accompanied by unprecedented technological challenges, due to the fact that muons are unstable particles. Their decay products interact with the machine elements and produce an intense flux of background particles that eventually reach the detector and may degrade its performance. In this paper, we present technologies that have a potential to match the challenging specifications of a muon collider detector and outline a path forward for the future R&D efforts. |
| id | cern-2847513 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2022 |
| record_format | invenio |
| spelling | cern-28475132023-08-19T02:35:28Zhttp://cds.cern.ch/record/2847513engJindariani, S.Meloni, F.Aimè, C.Bartosik, N.Barzi, E.Bertolin, A.Braghieri, A.Buonincontri, L.Calzaferri, S.Casarsa, M.Catanesi, M.G.Cerri, A.Chachamis, G.Colaleo, A.Curatolo, C.Da Molin, G.Delahaye, J.Di Micco, B.Dorigo, T.Errico, F.Fiorina, D.Gianelle, A.Giraldin, C.Hauptman, J.Holmes, T.R.Krizka, K.Lee, L.Long, K.R.Lucchesi, D.Mokhov, N.Montella, A.Nardi, F.Neufeld, N.Neuffer, D.Pagan Griso, S.Pellecchia, A.Potamianos, K.Radicioni, E.Radogna, R.Riccardi, C.Ristori, L.Rossi, L.Salvini, P.Schulte, D.Sestini, L.Shiltsev, V.Simone, F.M.Stamerra, A.Sun, X.Tang, J.Thompson, E.A.Vai, I.Valle, N.Venditti, R.Verwilligen, P.Vitulo, P.Weber, H.Yonehara, K.Zaza, A.Agashe, K.Allanach, B.C.Asadi, P.Mahmoud., M.A.Azatov, A.Batsch, F.Bersani, A.Biagini, M.E.Black, K.M.Bogacz, S.A.Bonesini, M.Bross, A.Buttazzo, D.Caiffi, B.Calderini, G.Capdevilla, R.Castelli, L.Cesarotti, C.Chacko, Z.Chancé, A.Chen, S.Chien, Y.-T.Costa, M.Craig, N.Curtin, D.D'Agnolo, R.T.Dam, M.Damerau, H.Dasu, S.de Blas, J.De Matteis, E.Deandrea, A.Delgado, A.Denizli, H.Dermisek, R.Di Petrillo, K.F.Dickinson, J.Everaerts, P.Everett, L.Farinon, S.Ferretti, G.Filthaut, F.Forslund, M.Franceschini, R.Gabrielli, E.Garosi, F.Giambastiani, L.Glioti, A.Gray, L.Greljo, A.Grojean, C.Gu, J.Han, C.Han, T.Henning, B.Hermanek, K.Homiller, S.Jana, S.Jia, H.Kahn, Y.Kaplan, D.M.Kilian, W.Kong, K.Koppenburg, P.Krintiras, G.K.Li, W.Li, Q.Liu, Z.Lu, Q.Ma, Y.Maltoni, F.Mantani, L.Mariotto, S.Marzocca, D.Mastrapasqua, P.Matchev, K.Mazzacane, A.McGinnis, N.Meade, P.Mele, B.Merkel, P.Merlassino, C.Mishra, R.K.Mohammadi, A.Mohapatra, R.Montagna, P.Musenich, R.Nomura, Y.Ojalvo, I.Panci, P.Paradisi, P.Perloff, A.Piccinini, F.Pierini, M.Prioli, M.Procura, M.Raubenheimer, T.Redigolo, D.Reina, L.Reuter, J.Riva, F.Robens, T.Sala, F.Salko, J.Salvioni, E.Santiago, J.Sarra, I.Schieck, J.Selvaggi, M.Senol, A.Sharma, V.Sorbi, M.Stark, G.Statera, M.Stupak, J.Su, S.Sundrum, R.Swiatlowski, M.Torre, R.Tortora, L.Trifinopoulos, S.Valente, M.Valente, R.U.Vittorio, L.Vryonidou, E.Vuosalo, C.Wendt, M.Wu, Y.Wulzer, A.Xie, K.Yu, H.-B.Zheng, Y.J.Zurita, J.Promising Technologies and R&D Directions for the Future Muon Collider Detectorshep-exParticle Physics - Experimentphysics.ins-detDetectors and Experimental TechniquesAmong the post-LHC generation of particle accelerators, the muon collider represents a unique machine with capability to provide very high energy leptonic collisions and to open the path to a vast and mostly unexplored physics programme. However, on the experimental side, such great physics potential is accompanied by unprecedented technological challenges, due to the fact that muons are unstable particles. Their decay products interact with the machine elements and produce an intense flux of background particles that eventually reach the detector and may degrade its performance. In this paper, we present technologies that have a potential to match the challenging specifications of a muon collider detector and outline a path forward for the future R&D efforts.arXiv:2203.07224oai:cds.cern.ch:28475132022-03-14 |
| spellingShingle | hep-ex Particle Physics - Experiment physics.ins-det Detectors and Experimental Techniques Jindariani, S. Meloni, F. Aimè, C. Bartosik, N. Barzi, E. Bertolin, A. Braghieri, A. Buonincontri, L. Calzaferri, S. Casarsa, M. Catanesi, M.G. Cerri, A. Chachamis, G. Colaleo, A. Curatolo, C. Da Molin, G. Delahaye, J. Di Micco, B. Dorigo, T. Errico, F. Fiorina, D. Gianelle, A. Giraldin, C. Hauptman, J. Holmes, T.R. Krizka, K. Lee, L. Long, K.R. Lucchesi, D. Mokhov, N. Montella, A. Nardi, F. Neufeld, N. Neuffer, D. Pagan Griso, S. Pellecchia, A. Potamianos, K. Radicioni, E. Radogna, R. Riccardi, C. Ristori, L. Rossi, L. Salvini, P. Schulte, D. Sestini, L. Shiltsev, V. Simone, F.M. Stamerra, A. Sun, X. Tang, J. Thompson, E.A. Vai, I. Valle, N. Venditti, R. Verwilligen, P. Vitulo, P. Weber, H. Yonehara, K. Zaza, A. Agashe, K. Allanach, B.C. Asadi, P. Mahmoud., M.A. Azatov, A. Batsch, F. Bersani, A. Biagini, M.E. Black, K.M. Bogacz, S.A. Bonesini, M. Bross, A. Buttazzo, D. Caiffi, B. Calderini, G. Capdevilla, R. Castelli, L. Cesarotti, C. Chacko, Z. Chancé, A. Chen, S. Chien, Y.-T. Costa, M. Craig, N. Curtin, D. D'Agnolo, R.T. Dam, M. Damerau, H. Dasu, S. de Blas, J. De Matteis, E. Deandrea, A. Delgado, A. Denizli, H. Dermisek, R. Di Petrillo, K.F. Dickinson, J. Everaerts, P. Everett, L. Farinon, S. Ferretti, G. Filthaut, F. Forslund, M. Franceschini, R. Gabrielli, E. Garosi, F. Giambastiani, L. Glioti, A. Gray, L. Greljo, A. Grojean, C. Gu, J. Han, C. Han, T. Henning, B. Hermanek, K. Homiller, S. Jana, S. Jia, H. Kahn, Y. Kaplan, D.M. Kilian, W. Kong, K. Koppenburg, P. Krintiras, G.K. Li, W. Li, Q. Liu, Z. Lu, Q. Ma, Y. Maltoni, F. Mantani, L. Mariotto, S. Marzocca, D. Mastrapasqua, P. Matchev, K. Mazzacane, A. McGinnis, N. Meade, P. Mele, B. Merkel, P. Merlassino, C. Mishra, R.K. Mohammadi, A. Mohapatra, R. Montagna, P. Musenich, R. Nomura, Y. Ojalvo, I. Panci, P. Paradisi, P. Perloff, A. Piccinini, F. Pierini, M. Prioli, M. Procura, M. Raubenheimer, T. Redigolo, D. Reina, L. Reuter, J. Riva, F. Robens, T. Sala, F. Salko, J. Salvioni, E. Santiago, J. Sarra, I. Schieck, J. Selvaggi, M. Senol, A. Sharma, V. Sorbi, M. Stark, G. Statera, M. Stupak, J. Su, S. Sundrum, R. Swiatlowski, M. Torre, R. Tortora, L. Trifinopoulos, S. Valente, M. Valente, R.U. Vittorio, L. Vryonidou, E. Vuosalo, C. Wendt, M. Wu, Y. Wulzer, A. Xie, K. Yu, H.-B. Zheng, Y.J. Zurita, J. Promising Technologies and R&D Directions for the Future Muon Collider Detectors |
| title | Promising Technologies and R&D Directions for the Future Muon Collider Detectors |
| title_full | Promising Technologies and R&D Directions for the Future Muon Collider Detectors |
| title_fullStr | Promising Technologies and R&D Directions for the Future Muon Collider Detectors |
| title_full_unstemmed | Promising Technologies and R&D Directions for the Future Muon Collider Detectors |
| title_short | Promising Technologies and R&D Directions for the Future Muon Collider Detectors |
| title_sort | promising technologies and r&d directions for the future muon collider detectors |
| topic | hep-ex Particle Physics - Experiment physics.ins-det Detectors and Experimental Techniques |
| url | http://cds.cern.ch/record/2847513 |
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promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT everaertsp promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT everettl promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT farinons promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT ferrettig promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT filthautf promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT forslundm promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT franceschinir promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT gabriellie promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT garosif promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT giambastianil promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT gliotia promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT grayl 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promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT kilianw promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT kongk promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT koppenburgp promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT krintirasgk promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT liw promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT liq promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT liuz promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT luq promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT may promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT maltonif promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT mantanil promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT mariottos promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT marzoccad promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT mastrapasquap promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT matchevk promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT mazzacanea promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT mcginnisn promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT meadep promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT meleb promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT merkelp promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT merlassinoc promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT mishrark promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT mohammadia promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT mohapatrar promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT montagnap promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT musenichr promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT nomuray promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT ojalvoi promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT pancip promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT paradisip promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT perloffa promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT piccininif promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT pierinim promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT priolim promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT procuram promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT raubenheimert promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT redigolod promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT reinal promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT reuterj promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT rivaf promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT robenst promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT salaf promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT salkoj promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT salvionie promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT santiagoj promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT sarrai promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT schieckj promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT selvaggim promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT senola promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT sharmav promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT sorbim promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT starkg promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT stateram promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT stupakj promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT sus promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT sundrumr promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT swiatlowskim promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT torrer promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT tortoral promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT trifinopouloss promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT valentem promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT valenteru promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT vittoriol promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT vryonidoue promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT vuosaloc promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT wendtm promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT wuy promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT wulzera promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT xiek promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT yuhb promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT zhengyj promisingtechnologiesandrddirectionsforthefuturemuoncolliderdetectors AT zuritaj 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