Search for e→τ charged lepton flavor violation at the EIC with the ECCE detector

Search for e→τ charged lepton flavor violation at the EIC with the ECCE detector

The recently approved Electron-Ion Collider (EIC) will provide a unique new opportunity for searches of charged lepton flavor violation (CLFV) and other new physics scenarios. In contrast to the e↔μ CLFV transition for which very stringent limits exist, there is still a relatively large discovery sp...

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Veröffentlicht in:Nucl.Instrum.Meth.A 2023-08, Vol.1053 (A), p.168276, Article 168276
Hauptverfasser: Akiba, Y., Albataineh, A., Gayoso, C. Ayerbe, Benmokhtar, F., Berdnikov, V., Bernauer, J.C., Borysova, M., Brash, E., Brindza, P., Briscoe, W.J., Bukhari, M.H.S., Chang, W.-C., Chen, K.-F., Cheng, K.-Y., Cohen, E., Corrales Morales, Y., Cotton, C., Crawford, C., David, G., Doshita, N., Dzhygadlo, R., Ent, R., Fatemi, R., Gangadharan, D., Gates, K., Geurts, F., Gilman, R., Glimos, E., Hayward, T., Hen, O., Higinbotham, D.W., Hoballah, M., Hutson, A., Kim, C., Kistenev, E., Korsch, W., Krintiras, G., Kuhn, S., Lajoie, J., Lebedev, S., Lee, S.W., Li, W.B., Li, X., Lin, D.X., Liu, M.X., Livingston, K., Liyanage, N., Loizides, C., Markert, C., Markowitz, P., Milov, A., Mkrtchyan, A., Montgomery, R., Munoz Camacho, C., Nakagawa, I., Nattrass, C., Nouicer, R., Nycz, M., Penman, G., Perdekamp, M.G., Perepelitsa, D.V., Pinkenburg, C., Protzman, T., Rajput-Ghoshal, R., Raue, B., Reinhold, J., Renner, E.L., Riedl, C., Rinn, T., Ron, G., Rosati, M., Ryu, J., Schambach, J., Schmidt, A., Schmidt, N., Simmerling, P., Shimizu, S., Slifer, K., Smith, K., Sondheim, W., Song, J., Strakovsky, I.I., Stepanov, P., Stevens, J., Sun, P., Tapia Araya, S., Tarafdar, S., Teodorescu, L., Trotta, R., Tveter, T.S., Usman, A., Watts, D.P., Wong, C.-P., Wood, M.H., Woody, C., Wyslouch, B., Xiao, Z., Zajc, W.A., Zheng, X.
Format: Artikel
Sprache:eng
Schlagworte:
BSM
CLFV
ECCE
EIC
Electroweak
High Energy Physics - Phenomenology
INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY
Leptoquark
NUCLEAR PHYSICS AND RADIATION PHYSICS
Physics
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container_end_page
container_issue A
container_start_page 168276
container_title Nucl.Instrum.Meth.A
container_volume 1053
creator Akiba, Y.
Albataineh, A.
Gayoso, C. Ayerbe
Benmokhtar, F.
Berdnikov, V.
Bernauer, J.C.
Borysova, M.
Brash, E.
Brindza, P.
Briscoe, W.J.
Bukhari, M.H.S.
Chang, W.-C.
Chen, K.-F.
Cheng, K.-Y.
Cohen, E.
Corrales Morales, Y.
Cotton, C.
Crawford, C.
David, G.
Doshita, N.
Dzhygadlo, R.
Ent, R.
Fatemi, R.
Gangadharan, D.
Gates, K.
Geurts, F.
Gilman, R.
Glimos, E.
Hayward, T.
Hen, O.
Higinbotham, D.W.
Hoballah, M.
Hutson, A.
Kim, C.
Kistenev, E.
Korsch, W.
Krintiras, G.
Kuhn, S.
Lajoie, J.
Lebedev, S.
Lee, S.W.
Li, W.B.
Li, X.
Lin, D.X.
Liu, M.X.
Livingston, K.
Liyanage, N.
Loizides, C.
Markert, C.
Markowitz, P.
Milov, A.
Mkrtchyan, A.
Montgomery, R.
Munoz Camacho, C.
Nakagawa, I.
Nattrass, C.
Nouicer, R.
Nycz, M.
Penman, G.
Perdekamp, M.G.
Perepelitsa, D.V.
Pinkenburg, C.
Protzman, T.
Rajput-Ghoshal, R.
Raue, B.
Reinhold, J.
Renner, E.L.
Riedl, C.
Rinn, T.
Ron, G.
Rosati, M.
Ryu, J.
Schambach, J.
Schmidt, A.
Schmidt, N.
Simmerling, P.
Shimizu, S.
Slifer, K.
Smith, K.
Sondheim, W.
Song, J.
Song, J.
Strakovsky, I.I.
Stepanov, P.
Stevens, J.
Sun, P.
Tapia Araya, S.
Tarafdar, S.
Teodorescu, L.
Trotta, R.
Tveter, T.S.
Usman, A.
Watts, D.P.
Wong, C.-P.
Wood, M.H.
Woody, C.
Wyslouch, B.
Xiao, Z.
Zajc, W.A.
Zheng, X.
description The recently approved Electron-Ion Collider (EIC) will provide a unique new opportunity for searches of charged lepton flavor violation (CLFV) and other new physics scenarios. In contrast to the e↔μ CLFV transition for which very stringent limits exist, there is still a relatively large discovery space for the e→τ CLFV transition, potentially to be explored by the EIC. With the latest detector design of ECCE (EIC Comprehensive Chromodynamics Experiment) and projected integral luminosity of the EIC, we find the τ-leptons created in the DIS process ep→τX are expected to be identified with high efficiency. A first ECCE simulation study, restricted to the 3-prong τ-decay mode and with limited statistics for the Standard Model backgrounds, estimates that the EIC will be able to improve the current exclusion limit on e→τ CLFV by an order of magnitude. The very high vertex resolution of the ECCE detector configuration plays a critical role in τ identification.
doi_str_mv 10.1016/j.nima.2023.168276
format Article
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Ayerbe ; Benmokhtar, F. ; Berdnikov, V. ; Bernauer, J.C. ; Borysova, M. ; Brash, E. ; Brindza, P. ; Briscoe, W.J. ; Bukhari, M.H.S. ; Chang, W.-C. ; Chen, K.-F. ; Cheng, K.-Y. ; Cohen, E. ; Corrales Morales, Y. ; Cotton, C. ; Crawford, C. ; David, G. ; Doshita, N. ; Dzhygadlo, R. ; Ent, R. ; Fatemi, R. ; Gangadharan, D. ; Gates, K. ; Geurts, F. ; Gilman, R. ; Glimos, E. ; Hayward, T. ; Hen, O. ; Higinbotham, D.W. ; Hoballah, M. ; Hutson, A. ; Kim, C. ; Kistenev, E. ; Korsch, W. ; Krintiras, G. ; Kuhn, S. ; Lajoie, J. ; Lebedev, S. ; Lee, S.W. ; Li, W.B. ; Li, X. ; Lin, D.X. ; Liu, M.X. ; Livingston, K. ; Liyanage, N. ; Loizides, C. ; Markert, C. ; Markowitz, P. ; Milov, A. ; Mkrtchyan, A. ; Montgomery, R. ; Munoz Camacho, C. ; Nakagawa, I. ; Nattrass, C. ; Nouicer, R. ; Nycz, M. ; Penman, G. ; Perdekamp, M.G. ; Perepelitsa, D.V. ; Pinkenburg, C. ; Protzman, T. ; Rajput-Ghoshal, R. ; Raue, B. ; Reinhold, J. ; Renner, E.L. ; Riedl, C. ; Rinn, T. ; Ron, G. ; Rosati, M. ; Ryu, J. ; Schambach, J. ; Schmidt, A. ; Schmidt, N. ; Simmerling, P. ; Shimizu, S. ; Slifer, K. ; Smith, K. ; Sondheim, W. ; Song, J. ; Song, J. ; Strakovsky, I.I. ; Stepanov, P. ; Stevens, J. ; Sun, P. ; Tapia Araya, S. ; Tarafdar, S. ; Teodorescu, L. ; Trotta, R. ; Tveter, T.S. ; Usman, A. ; Watts, D.P. ; Wong, C.-P. ; Wood, M.H. ; Woody, C. ; Wyslouch, B. ; Xiao, Z. ; Zajc, W.A. ; Zheng, X.</creator><creatorcontrib>Akiba, Y. ; Albataineh, A. ; Gayoso, C. Ayerbe ; Benmokhtar, F. ; Berdnikov, V. ; Bernauer, J.C. ; Borysova, M. ; Brash, E. ; Brindza, P. ; Briscoe, W.J. ; Bukhari, M.H.S. ; Chang, W.-C. ; Chen, K.-F. ; Cheng, K.-Y. ; Cohen, E. ; Corrales Morales, Y. ; Cotton, C. ; Crawford, C. ; David, G. ; Doshita, N. ; Dzhygadlo, R. ; Ent, R. ; Fatemi, R. ; Gangadharan, D. ; Gates, K. ; Geurts, F. ; Gilman, R. ; Glimos, E. ; Hayward, T. ; Hen, O. ; Higinbotham, D.W. ; Hoballah, M. ; Hutson, A. ; Kim, C. ; Kistenev, E. ; Korsch, W. ; Krintiras, G. ; Kuhn, S. ; Lajoie, J. ; Lebedev, S. ; Lee, S.W. ; Li, W.B. ; Li, X. ; Lin, D.X. ; Liu, M.X. ; Livingston, K. ; Liyanage, N. ; Loizides, C. ; Markert, C. ; Markowitz, P. ; Milov, A. ; Mkrtchyan, A. ; Montgomery, R. ; Munoz Camacho, C. ; Nakagawa, I. ; Nattrass, C. ; Nouicer, R. ; Nycz, M. ; Penman, G. ; Perdekamp, M.G. ; Perepelitsa, D.V. ; Pinkenburg, C. ; Protzman, T. ; Rajput-Ghoshal, R. ; Raue, B. ; Reinhold, J. ; Renner, E.L. ; Riedl, C. ; Rinn, T. ; Ron, G. ; Rosati, M. ; Ryu, J. ; Schambach, J. ; Schmidt, A. ; Schmidt, N. ; Simmerling, P. ; Shimizu, S. ; Slifer, K. ; Smith, K. ; Sondheim, W. ; Song, J. ; Song, J. ; Strakovsky, I.I. ; Stepanov, P. ; Stevens, J. ; Sun, P. ; Tapia Araya, S. ; Tarafdar, S. ; Teodorescu, L. ; Trotta, R. ; Tveter, T.S. ; Usman, A. ; Watts, D.P. ; Wong, C.-P. ; Wood, M.H. ; Woody, C. ; Wyslouch, B. ; Xiao, Z. ; Zajc, W.A. ; Zheng, X. ; Brookhaven National Laboratory (BNL), Upton, NY (United States) ; Univ. of Tennessee, Knoxville, TN (United States) ; Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States)</creatorcontrib><description>The recently approved Electron-Ion Collider (EIC) will provide a unique new opportunity for searches of charged lepton flavor violation (CLFV) and other new physics scenarios. In contrast to the e↔μ CLFV transition for which very stringent limits exist, there is still a relatively large discovery space for the e→τ CLFV transition, potentially to be explored by the EIC. With the latest detector design of ECCE (EIC Comprehensive Chromodynamics Experiment) and projected integral luminosity of the EIC, we find the τ-leptons created in the DIS process ep→τX are expected to be identified with high efficiency. A first ECCE simulation study, restricted to the 3-prong τ-decay mode and with limited statistics for the Standard Model backgrounds, estimates that the EIC will be able to improve the current exclusion limit on e→τ CLFV by an order of magnitude. 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In contrast to the e↔μ CLFV transition for which very stringent limits exist, there is still a relatively large discovery space for the e→τ CLFV transition, potentially to be explored by the EIC. With the latest detector design of ECCE (EIC Comprehensive Chromodynamics Experiment) and projected integral luminosity of the EIC, we find the τ-leptons created in the DIS process ep→τX are expected to be identified with high efficiency. A first ECCE simulation study, restricted to the 3-prong τ-decay mode and with limited statistics for the Standard Model backgrounds, estimates that the EIC will be able to improve the current exclusion limit on e→τ CLFV by an order of magnitude. The very high vertex resolution of the ECCE detector configuration plays a critical role in τ identification.</description><subject>BSM</subject><subject>CLFV</subject><subject>ECCE</subject><subject>EIC</subject><subject>Electroweak</subject><subject>High Energy Physics - Phenomenology</subject><subject>INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY</subject><subject>Leptoquark</subject><subject>NUCLEAR PHYSICS AND RADIATION PHYSICS</subject><subject>Physics</subject><issn>0168-9002</issn><issn>1872-9576</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><recordid>eNp9kEFKxDAUhoMoOI5ewFVw56I1aZs0ATdDGZ2BARej65Amqc1QmyENI-7FA3gx7-BJTKm4NJtH3vv_lz8fAJcYpRhherNLe_si0wxleYopy0p6BGaYlVnCSUmPwSyKWMIRyk7B2TDsUDy8ZDOw3RrpVQsb56H5_vj8eoeqlf7ZaNiZfXA9bDp5iMODdZ0MNjZkgKE1cLmu4KsN7XSpqiXUJhgVnD8HJ43sBnPxW-fg6W75WK2SzcP9ulpsEhXzhaQgBWGF1lohUktMONGc8JrFxEbXSJqGNKbBvKRc5YgywnVdcKXqXJGCU5nPwdW01w3BikHZ-HyrXN_HFAJzRnLKo-h6ErWyE3sfKfk34aQVq8VGjD2Uc54hRg84arNJq7wbBm-aPwNGYuQsdmLkLEbOYuIcTbeTycSvHqzxYxLTK6OtH4NoZ_-z_wBeioX9</recordid><startdate>20230801</startdate><enddate>20230801</enddate><creator>Akiba, Y.</creator><creator>Albataineh, A.</creator><creator>Gayoso, C. 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Ayerbe ; Benmokhtar, F. ; Berdnikov, V. ; Bernauer, J.C. ; Borysova, M. ; Brash, E. ; Brindza, P. ; Briscoe, W.J. ; Bukhari, M.H.S. ; Chang, W.-C. ; Chen, K.-F. ; Cheng, K.-Y. ; Cohen, E. ; Corrales Morales, Y. ; Cotton, C. ; Crawford, C. ; David, G. ; Doshita, N. ; Dzhygadlo, R. ; Ent, R. ; Fatemi, R. ; Gangadharan, D. ; Gates, K. ; Geurts, F. ; Gilman, R. ; Glimos, E. ; Hayward, T. ; Hen, O. ; Higinbotham, D.W. ; Hoballah, M. ; Hutson, A. ; Kim, C. ; Kistenev, E. ; Korsch, W. ; Krintiras, G. ; Kuhn, S. ; Lajoie, J. ; Lebedev, S. ; Lee, S.W. ; Li, W.B. ; Li, X. ; Lin, D.X. ; Liu, M.X. ; Livingston, K. ; Liyanage, N. ; Loizides, C. ; Markert, C. ; Markowitz, P. ; Milov, A. ; Mkrtchyan, A. ; Montgomery, R. ; Munoz Camacho, C. ; Nakagawa, I. ; Nattrass, C. ; Nouicer, R. ; Nycz, M. ; Penman, G. ; Perdekamp, M.G. ; Perepelitsa, D.V. ; Pinkenburg, C. ; Protzman, T. ; Rajput-Ghoshal, R. ; Raue, B. ; Reinhold, J. ; Renner, E.L. ; Riedl, C. ; Rinn, T. ; Ron, G. ; Rosati, M. ; Ryu, J. ; Schambach, J. ; Schmidt, A. ; Schmidt, N. ; Simmerling, P. ; Shimizu, S. ; Slifer, K. ; Smith, K. ; Sondheim, W. ; Song, J. ; Song, J. ; Strakovsky, I.I. ; Stepanov, P. ; Stevens, J. ; Sun, P. ; Tapia Araya, S. ; Tarafdar, S. ; Teodorescu, L. ; Trotta, R. ; Tveter, T.S. ; Usman, A. ; Watts, D.P. ; Wong, C.-P. ; Wood, M.H. ; Woody, C. ; Wyslouch, B. ; Xiao, Z. ; Zajc, W.A. ; Zheng, X.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c276t-454584dddc05ba1595d959b8957edb0aef5fef19769c306859db49ccb3c5496a3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2023</creationdate><topic>BSM</topic><topic>CLFV</topic><topic>ECCE</topic><topic>EIC</topic><topic>Electroweak</topic><topic>High Energy Physics - Phenomenology</topic><topic>INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY</topic><topic>Leptoquark</topic><topic>NUCLEAR PHYSICS AND RADIATION PHYSICS</topic><topic>Physics</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Akiba, Y.</creatorcontrib><creatorcontrib>Albataineh, A.</creatorcontrib><creatorcontrib>Gayoso, C. 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Ayerbe</au><au>Benmokhtar, F.</au><au>Berdnikov, V.</au><au>Bernauer, J.C.</au><au>Borysova, M.</au><au>Brash, E.</au><au>Brindza, P.</au><au>Briscoe, W.J.</au><au>Bukhari, M.H.S.</au><au>Chang, W.-C.</au><au>Chen, K.-F.</au><au>Cheng, K.-Y.</au><au>Cohen, E.</au><au>Corrales Morales, Y.</au><au>Cotton, C.</au><au>Crawford, C.</au><au>David, G.</au><au>Doshita, N.</au><au>Dzhygadlo, R.</au><au>Ent, R.</au><au>Fatemi, R.</au><au>Gangadharan, D.</au><au>Gates, K.</au><au>Geurts, F.</au><au>Gilman, R.</au><au>Glimos, E.</au><au>Hayward, T.</au><au>Hen, O.</au><au>Higinbotham, D.W.</au><au>Hoballah, M.</au><au>Hutson, A.</au><au>Kim, C.</au><au>Kistenev, E.</au><au>Korsch, W.</au><au>Krintiras, G.</au><au>Kuhn, S.</au><au>Lajoie, J.</au><au>Lebedev, S.</au><au>Lee, S.W.</au><au>Li, W.B.</au><au>Li, X.</au><au>Lin, D.X.</au><au>Liu, M.X.</au><au>Livingston, K.</au><au>Liyanage, N.</au><au>Loizides, C.</au><au>Markert, C.</au><au>Markowitz, P.</au><au>Milov, A.</au><au>Mkrtchyan, A.</au><au>Montgomery, R.</au><au>Munoz Camacho, C.</au><au>Nakagawa, I.</au><au>Nattrass, C.</au><au>Nouicer, R.</au><au>Nycz, M.</au><au>Penman, G.</au><au>Perdekamp, M.G.</au><au>Perepelitsa, D.V.</au><au>Pinkenburg, C.</au><au>Protzman, T.</au><au>Rajput-Ghoshal, R.</au><au>Raue, B.</au><au>Reinhold, J.</au><au>Renner, E.L.</au><au>Riedl, C.</au><au>Rinn, T.</au><au>Ron, G.</au><au>Rosati, M.</au><au>Ryu, J.</au><au>Schambach, J.</au><au>Schmidt, A.</au><au>Schmidt, N.</au><au>Simmerling, P.</au><au>Shimizu, S.</au><au>Slifer, K.</au><au>Smith, K.</au><au>Sondheim, W.</au><au>Song, J.</au><au>Song, J.</au><au>Strakovsky, I.I.</au><au>Stepanov, P.</au><au>Stevens, J.</au><au>Sun, P.</au><au>Tapia Araya, S.</au><au>Tarafdar, S.</au><au>Teodorescu, L.</au><au>Trotta, R.</au><au>Tveter, T.S.</au><au>Usman, A.</au><au>Watts, D.P.</au><au>Wong, C.-P.</au><au>Wood, M.H.</au><au>Woody, C.</au><au>Wyslouch, B.</au><au>Xiao, Z.</au><au>Zajc, W.A.</au><au>Zheng, X.</au><aucorp>Brookhaven National Laboratory (BNL), Upton, NY (United States)</aucorp><aucorp>Univ. of Tennessee, Knoxville, TN (United States)</aucorp><aucorp>Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States)</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Search for e→τ charged lepton flavor violation at the EIC with the ECCE detector</atitle><jtitle>Nucl.Instrum.Meth.A</jtitle><date>2023-08-01</date><risdate>2023</risdate><volume>1053</volume><issue>A</issue><spage>168276</spage><pages>168276-</pages><artnum>168276</artnum><issn>0168-9002</issn><eissn>1872-9576</eissn><abstract>The recently approved Electron-Ion Collider (EIC) will provide a unique new opportunity for searches of charged lepton flavor violation (CLFV) and other new physics scenarios. In contrast to the e↔μ CLFV transition for which very stringent limits exist, there is still a relatively large discovery space for the e→τ CLFV transition, potentially to be explored by the EIC. With the latest detector design of ECCE (EIC Comprehensive Chromodynamics Experiment) and projected integral luminosity of the EIC, we find the τ-leptons created in the DIS process ep→τX are expected to be identified with high efficiency. A first ECCE simulation study, restricted to the 3-prong τ-decay mode and with limited statistics for the Standard Model backgrounds, estimates that the EIC will be able to improve the current exclusion limit on e→τ CLFV by an order of magnitude. The very high vertex resolution of the ECCE detector configuration plays a critical role in τ identification.</abstract><cop>United States</cop><pub>Elsevier B.V</pub><doi>10.1016/j.nima.2023.168276</doi><orcidid>https://orcid.org/0000-0001-7300-2929</orcidid><orcidid>https://orcid.org/0000-0003-3712-2194</orcidid><orcidid>https://orcid.org/0000-0002-4478-1289</orcidid><orcidid>https://orcid.org/0000-0003-4990-3369</orcidid><orcidid>https://orcid.org/0000-0002-6647-0852</orcidid><orcidid>https://orcid.org/0000000244781289</orcidid><orcidid>https://orcid.org/0000000173002929</orcidid><orcidid>https://orcid.org/0000000337122194</orcidid><oa>free_for_read</oa></addata></record>
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1872-9576
language eng
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source Elsevier ScienceDirect Journals Complete
subjects BSM
CLFV
ECCE
EIC
Electroweak
High Energy Physics - Phenomenology
INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY
Leptoquark
NUCLEAR PHYSICS AND RADIATION PHYSICS
Physics
title Search for e→τ charged lepton flavor violation at the EIC with the ECCE detector
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