Storage ring to search for electric dipole moments of charged particles: Feasibility study

The proposed method exploits charged particles confined as a storage ring beam (proton, deuteron, possibly $^3$He) to search for an intrinsic electric dipole moment (EDM) aligned along the particle spin axis. Statistical sensitivities can approach $10^{29}$ e.cm. The challenge will be to reduce syst...

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Autores principales: Abusaif, F., Aggarwal, A., Aksentev, A., Alberdi-Esuain, B., Andres, A., Atanasov, A., Barion, L., Basile, S., Berz, M., Beyß, M., Böhme, C., Böker, J., Borburgh, J., Canale, N., Carli, C., Ciepał, I., Ciullo, G., Contalbrigo, M., De Conto, J.-M., Dymov, S., Felden, O., Gagoshidze, M., Gaisser, M., Gebel, R., Giese, N., Gooding, J., Grigoryev, K., Grzonka, D., Haj Tahar, M., Hahnraths, T., Heberling, D., Hejny, V., Hetzel, J., Hölscher, D., Javakhishvili, O., Jorat, L., Kacharava, A., Kamerdzhiev, V., Karanth, S., Käseberg, C., Keshelashvili, I., Koop, I., Kulikov, A., Laihem, K., Lamont, M., Lehrach, A., Lenisa, P., Lomidze, I., Lomidze, N., Lorentz, B., Macharashvili, G., Magiera, A., Makino, K., Martin, S., Mchedlishvili, D., Meißner, U.-G, Metreveli, Z., Michaud, J., Müller, F., Nass, A., Natour, G., Nikolaev, N., Nogga, A., Okropiridze, D., Pesce, A., Poncza, V., Prasuhn, D., Pretz, J., Rathmann, F., Ritman, J., Rosenthal, M., Saleev, A., Schott, M., Sefzick, T., Senichev, Y., Shankar, R., Shergelashvili, D., Shmakova, V., Siddique, S., Silenko, A., Simon, M., Slim, J., Soltner, H., Stahl, A., Stassen, R., Stephenson, E., Straatmann, H., Ströher, H., Tabidze, M., Tagliente, G., Talman, R., Uzikov, Y., Valdau, Y., Valetov, E., Vilella, E., Vitz, M., Vossebeld, J., Wagner, T., Weidemann, C., Wirzba, A., Wrońska, A., Wüstner, P., Zupranski, P., Zurek., M.
Lenguaje:eng
Publicado: CERN 2019
Materias:
Accelerators and Storage Rings
Particle Physics - Experiment
Nuclear Physics - Experiment
Acceso en línea:https://dx.doi.org/10.23731/CYRM-2021-003
http://cds.cern.ch/record/2654645
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author Abusaif, F.
Aggarwal, A.
Aksentev, A.
Alberdi-Esuain, B.
Andres, A.
Atanasov, A.
Barion, L.
Basile, S.
Berz, M.
Beyß, M.
Böhme, C.
Böker, J.
Borburgh, J.
Canale, N.
Carli, C.
Ciepał, I.
Ciullo, G.
Contalbrigo, M.
De Conto, J.-M.
Dymov, S.
Felden, O.
Gagoshidze, M.
Gaisser, M.
Gebel, R.
Giese, N.
Gooding, J.
Grigoryev, K.
Grzonka, D.
Haj Tahar, M.
Hahnraths, T.
Heberling, D.
Hejny, V.
Hetzel, J.
Hölscher, D.
Javakhishvili, O.
Jorat, L.
Kacharava, A.
Kamerdzhiev, V.
Karanth, S.
Käseberg, C.
Keshelashvili, I.
Koop, I.
Kulikov, A.
Laihem, K.
Lamont, M.
Lehrach, A.
Lenisa, P.
Lomidze, I.
Lomidze, N.
Lorentz, B.
Macharashvili, G.
Magiera, A.
Makino, K.
Martin, S.
Mchedlishvili, D.
Meißner, U.-G
Metreveli, Z.
Michaud, J.
Müller, F.
Nass, A.
Natour, G.
Nikolaev, N.
Nogga, A.
Okropiridze, D.
Pesce, A.
Poncza, V.
Prasuhn, D.
Pretz, J.
Rathmann, F.
Ritman, J.
Rosenthal, M.
Saleev, A.
Schott, M.
Sefzick, T.
Senichev, Y.
Shankar, R.
Shergelashvili, D.
Shmakova, V.
Siddique, S.
Silenko, A.
Simon, M.
Slim, J.
Soltner, H.
Stahl, A.
Stassen, R.
Stephenson, E.
Straatmann, H.
Ströher, H.
Tabidze, M.
Tagliente, G.
Talman, R.
Uzikov, Y.
Valdau, Y.
Valetov, E.
Vilella, E.
Vitz, M.
Vossebeld, J.
Wagner, T.
Weidemann, C.
Wirzba, A.
Wrońska, A.
Wüstner, P.
Zupranski, P.
Zurek., M.
author_facet Abusaif, F.
Aggarwal, A.
Aksentev, A.
Alberdi-Esuain, B.
Andres, A.
Atanasov, A.
Barion, L.
Basile, S.
Berz, M.
Beyß, M.
Böhme, C.
Böker, J.
Borburgh, J.
Canale, N.
Carli, C.
Ciepał, I.
Ciullo, G.
Contalbrigo, M.
De Conto, J.-M.
Dymov, S.
Felden, O.
Gagoshidze, M.
Gaisser, M.
Gebel, R.
Giese, N.
Gooding, J.
Grigoryev, K.
Grzonka, D.
Haj Tahar, M.
Hahnraths, T.
Heberling, D.
Hejny, V.
Hetzel, J.
Hölscher, D.
Javakhishvili, O.
Jorat, L.
Kacharava, A.
Kamerdzhiev, V.
Karanth, S.
Käseberg, C.
Keshelashvili, I.
Koop, I.
Kulikov, A.
Laihem, K.
Lamont, M.
Lehrach, A.
Lenisa, P.
Lomidze, I.
Lomidze, N.
Lorentz, B.
Macharashvili, G.
Magiera, A.
Makino, K.
Martin, S.
Mchedlishvili, D.
Meißner, U.-G
Metreveli, Z.
Michaud, J.
Müller, F.
Nass, A.
Natour, G.
Nikolaev, N.
Nogga, A.
Okropiridze, D.
Pesce, A.
Poncza, V.
Prasuhn, D.
Pretz, J.
Rathmann, F.
Ritman, J.
Rosenthal, M.
Saleev, A.
Schott, M.
Sefzick, T.
Senichev, Y.
Shankar, R.
Shergelashvili, D.
Shmakova, V.
Siddique, S.
Silenko, A.
Simon, M.
Slim, J.
Soltner, H.
Stahl, A.
Stassen, R.
Stephenson, E.
Straatmann, H.
Ströher, H.
Tabidze, M.
Tagliente, G.
Talman, R.
Uzikov, Y.
Valdau, Y.
Valetov, E.
Vilella, E.
Vitz, M.
Vossebeld, J.
Wagner, T.
Weidemann, C.
Wirzba, A.
Wrońska, A.
Wüstner, P.
Zupranski, P.
Zurek., M.
author_sort Abusaif, F.
collection CERN
description The proposed method exploits charged particles confined as a storage ring beam (proton, deuteron, possibly $^3$He) to search for an intrinsic electric dipole moment (EDM) aligned along the particle spin axis. Statistical sensitivities can approach $10^{29}$ e.cm. The challenge will be to reduce systematic errors to similar levels. The ring will be adjusted to preserve the spin polarization, initially parallel to the particle velocity, for times in excess of 15 minutes. Large radial electric fields, acting through the EDM, will rotate the polarization. The slow rise in the vertical polarization component, detected through scattering from a target, signals the EDM. The project strategy is outlined. It foresees a step-wise plan, starting with ongoing COSY activities that demonstrate technical feasibility. Achievements to date include reduced polarization measurement errors, long horizontal-plane polarization lifetimes, and control of the polarization direction through feedback from the scattering measurements. The project continues with a proof-of-capability measurement (precursor experiment; first direct deuteron EDM measurement), an intermediate prototype ring (proof-of-principle; demonstrator for key technologies), and finally the high precision electric-field storage ring.
id cern-2654645
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2019
publisher CERN
record_format invenio
spelling cern-26546452023-06-29T04:03:48Zdoi:10.23731/CYRM-2021-003http://cds.cern.ch/record/2654645engAbusaif, F.Aggarwal, A.Aksentev, A.Alberdi-Esuain, B.Andres, A.Atanasov, A.Barion, L.Basile, S.Berz, M.Beyß, M.Böhme, C.Böker, J.Borburgh, J.Canale, N.Carli, C.Ciepał, I.Ciullo, G.Contalbrigo, M.De Conto, J.-M.Dymov, S.Felden, O.Gagoshidze, M.Gaisser, M.Gebel, R.Giese, N.Gooding, J.Grigoryev, K.Grzonka, D.Haj Tahar, M.Hahnraths, T.Heberling, D.Hejny, V.Hetzel, J.Hölscher, D.Javakhishvili, O.Jorat, L.Kacharava, A.Kamerdzhiev, V.Karanth, S.Käseberg, C.Keshelashvili, I.Koop, I.Kulikov, A.Laihem, K.Lamont, M.Lehrach, A.Lenisa, P.Lomidze, I.Lomidze, N.Lorentz, B.Macharashvili, G.Magiera, A.Makino, K.Martin, S.Mchedlishvili, D.Meißner, U.-GMetreveli, Z.Michaud, J.Müller, F.Nass, A.Natour, G.Nikolaev, N.Nogga, A.Okropiridze, D.Pesce, A.Poncza, V.Prasuhn, D.Pretz, J.Rathmann, F.Ritman, J.Rosenthal, M.Saleev, A.Schott, M.Sefzick, T.Senichev, Y.Shankar, R.Shergelashvili, D.Shmakova, V.Siddique, S.Silenko, A.Simon, M.Slim, J.Soltner, H.Stahl, A.Stassen, R.Stephenson, E.Straatmann, H.Ströher, H.Tabidze, M.Tagliente, G.Talman, R.Uzikov, Y.Valdau, Y.Valetov, E.Vilella, E.Vitz, M.Vossebeld, J.Wagner, T.Weidemann, C.Wirzba, A.Wrońska, A.Wüstner, P.Zupranski, P.Zurek., M.Storage ring to search for electric dipole moments of charged particles: Feasibility studyAccelerators and Storage RingsParticle Physics - ExperimentNuclear Physics - ExperimentThe proposed method exploits charged particles confined as a storage ring beam (proton, deuteron, possibly $^3$He) to search for an intrinsic electric dipole moment (EDM) aligned along the particle spin axis. Statistical sensitivities can approach $10^{29}$ e.cm. The challenge will be to reduce systematic errors to similar levels. The ring will be adjusted to preserve the spin polarization, initially parallel to the particle velocity, for times in excess of 15 minutes. Large radial electric fields, acting through the EDM, will rotate the polarization. The slow rise in the vertical polarization component, detected through scattering from a target, signals the EDM. The project strategy is outlined. It foresees a step-wise plan, starting with ongoing COSY activities that demonstrate technical feasibility. Achievements to date include reduced polarization measurement errors, long horizontal-plane polarization lifetimes, and control of the polarization direction through feedback from the scattering measurements. The project continues with a proof-of-capability measurement (precursor experiment; first direct deuteron EDM measurement), an intermediate prototype ring (proof-of-principle; demonstrator for key technologies), and finally the high precision electric-field storage ring.The proposed method exploits charged particles confined as a storage ring beam (proton, deuteron, possibly $^3$He) to search for an intrinsic electric dipole moment (EDM) aligned along the particle spin axis. Statistical sensitivities can approach $10^{29} e$ cm. The challenge will be to reduce systematic errors to similar levels. The ring will be adjusted to preserve the spin polarization, initially parallel to the particle velocity, for times in excess of 15 minutes. Large radial electric fields, acting through the EDM, will rotate the polarization. The slow rise in the vertical polarization component, detected through scattering from a target, signals the EDM. The project strategy is outlined. It foresees a step-wise plan, starting with ongoing COSY activities that demonstrate technical feasibility. Achievements to date include reduced polarization measurement errors, long horizontal-plane polarization lifetimes, and control of the polarization direction through feedback from the scattering measurements. The project continues with a proof-of-capability measurement (precursor experiment; first direct deuteron EDM measurement), an intermediate prototype ring (proof-of-principle; demonstrator for key technologies), and finally the high precision electric-field storage ring.The proposed method exploits charged particles confined as a storage ring beam (proton, deuteron, possibly $^3$He) to search for an intrinsic electric dipole moment (EDM) aligned along the particle spin axis. Statistical sensitivities could approach 10$^{-29}$ e$\cdot$cm. The challenge will be to reduce systematic errors to similar levels. The ring will be adjusted to preserve the spin polarisation, initially parallel to the particle velocity, for times in excess of 15 minutes. Large radial electric fields, acting through the EDM, will rotate the polarisation from the longitudinal to the vertical direction. The slow rise in the vertical polarisation component, detected through scattering from a target, signals the EDM. The project strategy is outlined. A stepwise plan is foreseen, starting with ongoing COSY activities that demonstrate technical feasibility. Achievements to date include reduced polarization measurement errors, long horizontal plane polarization lifetimes, and control of the polarization direction through feedback from scattering measurements. The project continues with a proof-of-capability measurement (precursor experiment; first direct deuteron EDM measurement), an intermediate prototype ring (proof-of-principle; demonstrator for key technologies), and finally a high-precision electric-field storage ring.CERNarXiv:1912.07881CERN Yellow Reports: MonographsCERN-2021-003CERN-PBC-REPORT-2019-002oai:cds.cern.ch:26546452019-01-23
spellingShingle Accelerators and Storage Rings
Particle Physics - Experiment
Nuclear Physics - Experiment
Abusaif, F.
Aggarwal, A.
Aksentev, A.
Alberdi-Esuain, B.
Andres, A.
Atanasov, A.
Barion, L.
Basile, S.
Berz, M.
Beyß, M.
Böhme, C.
Böker, J.
Borburgh, J.
Canale, N.
Carli, C.
Ciepał, I.
Ciullo, G.
Contalbrigo, M.
De Conto, J.-M.
Dymov, S.
Felden, O.
Gagoshidze, M.
Gaisser, M.
Gebel, R.
Giese, N.
Gooding, J.
Grigoryev, K.
Grzonka, D.
Haj Tahar, M.
Hahnraths, T.
Heberling, D.
Hejny, V.
Hetzel, J.
Hölscher, D.
Javakhishvili, O.
Jorat, L.
Kacharava, A.
Kamerdzhiev, V.
Karanth, S.
Käseberg, C.
Keshelashvili, I.
Koop, I.
Kulikov, A.
Laihem, K.
Lamont, M.
Lehrach, A.
Lenisa, P.
Lomidze, I.
Lomidze, N.
Lorentz, B.
Macharashvili, G.
Magiera, A.
Makino, K.
Martin, S.
Mchedlishvili, D.
Meißner, U.-G
Metreveli, Z.
Michaud, J.
Müller, F.
Nass, A.
Natour, G.
Nikolaev, N.
Nogga, A.
Okropiridze, D.
Pesce, A.
Poncza, V.
Prasuhn, D.
Pretz, J.
Rathmann, F.
Ritman, J.
Rosenthal, M.
Saleev, A.
Schott, M.
Sefzick, T.
Senichev, Y.
Shankar, R.
Shergelashvili, D.
Shmakova, V.
Siddique, S.
Silenko, A.
Simon, M.
Slim, J.
Soltner, H.
Stahl, A.
Stassen, R.
Stephenson, E.
Straatmann, H.
Ströher, H.
Tabidze, M.
Tagliente, G.
Talman, R.
Uzikov, Y.
Valdau, Y.
Valetov, E.
Vilella, E.
Vitz, M.
Vossebeld, J.
Wagner, T.
Weidemann, C.
Wirzba, A.
Wrońska, A.
Wüstner, P.
Zupranski, P.
Zurek., M.
Storage ring to search for electric dipole moments of charged particles: Feasibility study
title Storage ring to search for electric dipole moments of charged particles: Feasibility study
title_full Storage ring to search for electric dipole moments of charged particles: Feasibility study
title_fullStr Storage ring to search for electric dipole moments of charged particles: Feasibility study
title_full_unstemmed Storage ring to search for electric dipole moments of charged particles: Feasibility study
title_short Storage ring to search for electric dipole moments of charged particles: Feasibility study
title_sort storage ring to search for electric dipole moments of charged particles: feasibility study
topic Accelerators and Storage Rings
Particle Physics - Experiment
Nuclear Physics - Experiment
url https://dx.doi.org/10.23731/CYRM-2021-003
http://cds.cern.ch/record/2654645
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