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Evolution of a plasma column measured through modulation of a high-energy proton beam
Plasma wakefield acceleration is a method for accelerating particle beams using electromagnetic fields that are orders of magnitude larger than those found in conventional radio frequency cavities. The core component of a plasma wakefield accelerator is the plasma source, which ranges from millimete...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2020
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| Materias: | |
| Acceso en línea: | http://cds.cern.ch/record/2722406 |
| _version_ | 1780965896195407872 |
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| author | Gessner, S. Adli, E. Apsimon, O. Apsimon, R. Bachmann, A.-M. Batsch, F. Bracco, C. Braunmuller, F. Burger, S. Burt, G. Buttenschon, B. Caldwell, A. Chappell, J. Chevallay, E. Chung, M. Cooke, D. Damerau, H. Demeter, G. Deubner, L.H. Dexter, A. Doebert, S. Farmer, J. Fedosseev, V.N. Fiorito, R. Fonseca, R.A. Friebel, F. Garolfi, L. Goddard, B. Gorgisyan, I. Gorn, A.A. Granados, E. Grulke, O. Gschwendtner, E. Hartin, A. Helm, A. Henderson, J.R. Huther, M. Ibison, M. Jolly, S. Keeble, F. Kelisani, M.D. Khudyakov, V.K. Kim, S.-Y. Kraus, F. Krupa, M. Lefevre, T. Li, Y. Liu, S. Lopes, N. Lotov, K.V. Martyanov, M. Mazzoni, S. Minakov, V.A. Molendijk, J.C. Moody, J.T. Moreira, M. Panuganti, H. Pardons, A. Pena Asmus, F. Perera, A. Petrenko, A. Pukhov, A. Rey, S. Ruhl, H. Saberi, H. Sherwood, P. Silva, L.O. Sosedkin, A.P. Sublet, A. Tuev, P.V. Turner, M. Velotti, F. Verra, L. Verzilov, V.A. Vieira, J. Welsch, C.P. Wendt, M. Williamson, B. Wing, M. Woolley, B. Xia, G. Zevi Della Porta, G. |
| author_facet | Gessner, S. Adli, E. Apsimon, O. Apsimon, R. Bachmann, A.-M. Batsch, F. Bracco, C. Braunmuller, F. Burger, S. Burt, G. Buttenschon, B. Caldwell, A. Chappell, J. Chevallay, E. Chung, M. Cooke, D. Damerau, H. Demeter, G. Deubner, L.H. Dexter, A. Doebert, S. Farmer, J. Fedosseev, V.N. Fiorito, R. Fonseca, R.A. Friebel, F. Garolfi, L. Goddard, B. Gorgisyan, I. Gorn, A.A. Granados, E. Grulke, O. Gschwendtner, E. Hartin, A. Helm, A. Henderson, J.R. Huther, M. Ibison, M. Jolly, S. Keeble, F. Kelisani, M.D. Khudyakov, V.K. Kim, S.-Y. Kraus, F. Krupa, M. Lefevre, T. Li, Y. Liu, S. Lopes, N. Lotov, K.V. Martyanov, M. Mazzoni, S. Minakov, V.A. Molendijk, J.C. Moody, J.T. Moreira, M. Panuganti, H. Pardons, A. Pena Asmus, F. Perera, A. Petrenko, A. Pukhov, A. Rey, S. Ruhl, H. Saberi, H. Sherwood, P. Silva, L.O. Sosedkin, A.P. Sublet, A. Tuev, P.V. Turner, M. Velotti, F. Verra, L. Verzilov, V.A. Vieira, J. Welsch, C.P. Wendt, M. Williamson, B. Wing, M. Woolley, B. Xia, G. Zevi Della Porta, G. |
| author_sort | Gessner, S. |
| collection | CERN |
| description | Plasma wakefield acceleration is a method for accelerating particle beams using electromagnetic fields that are orders of magnitude larger than those found in conventional radio frequency cavities. The core component of a plasma wakefield accelerator is the plasma source, which ranges from millimeter-scale gas jets used in laser-driven experiments, to the ten-meter-long rubidium cell used in the AWAKE experiment. The density of the neutral gas is a controlled input to the experiment, but the density of the plasma after ionization depends on many factors. AWAKE uses a high-energy proton beam to drive the plasma wakefield, and the wakefield acts back on the proton bunch by modulating it at the plasma frequency. We infer the plasma density by measuring the frequency of modulation of the proton bunch, and we measure the evolution of the density versus time by varying the arrival of the proton beam with respect to the ionizing laser pulse. Using this technique, we uncover a microsecond-long period of a stable plasma density followed by a rapid decay in density. The stability of the plasma after ionization has implications for the design of much longer vapor cells that could be used to accelerate particle beams to extremely high energies. |
| id | cern-2722406 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2020 |
| record_format | invenio |
| spelling | cern-27224062023-07-13T03:32:31Zhttp://cds.cern.ch/record/2722406engGessner, S.Adli, E.Apsimon, O.Apsimon, R.Bachmann, A.-M.Batsch, F.Bracco, C.Braunmuller, F.Burger, S.Burt, G.Buttenschon, B.Caldwell, A.Chappell, J.Chevallay, E.Chung, M.Cooke, D.Damerau, H.Demeter, G.Deubner, L.H.Dexter, A.Doebert, S.Farmer, J.Fedosseev, V.N.Fiorito, R.Fonseca, R.A.Friebel, F.Garolfi, L.Goddard, B.Gorgisyan, I.Gorn, A.A.Granados, E.Grulke, O.Gschwendtner, E.Hartin, A.Helm, A.Henderson, J.R.Huther, M.Ibison, M.Jolly, S.Keeble, F.Kelisani, M.D.Khudyakov, V.K.Kim, S.-Y.Kraus, F.Krupa, M.Lefevre, T.Li, Y.Liu, S.Lopes, N.Lotov, K.V.Martyanov, M.Mazzoni, S.Minakov, V.A.Molendijk, J.C.Moody, J.T.Moreira, M.Panuganti, H.Pardons, A.Pena Asmus, F.Perera, A.Petrenko, A.Pukhov, A.Rey, S.Ruhl, H.Saberi, H.Sherwood, P.Silva, L.O.Sosedkin, A.P.Sublet, A.Tuev, P.V.Turner, M.Velotti, F.Verra, L.Verzilov, V.A.Vieira, J.Welsch, C.P.Wendt, M.Williamson, B.Wing, M.Woolley, B.Xia, G.Zevi Della Porta, G.Evolution of a plasma column measured through modulation of a high-energy proton beamphysics.plasm-phOther Fields of Physicsphysics.acc-phAccelerators and Storage RingsPlasma wakefield acceleration is a method for accelerating particle beams using electromagnetic fields that are orders of magnitude larger than those found in conventional radio frequency cavities. The core component of a plasma wakefield accelerator is the plasma source, which ranges from millimeter-scale gas jets used in laser-driven experiments, to the ten-meter-long rubidium cell used in the AWAKE experiment. The density of the neutral gas is a controlled input to the experiment, but the density of the plasma after ionization depends on many factors. AWAKE uses a high-energy proton beam to drive the plasma wakefield, and the wakefield acts back on the proton bunch by modulating it at the plasma frequency. We infer the plasma density by measuring the frequency of modulation of the proton bunch, and we measure the evolution of the density versus time by varying the arrival of the proton beam with respect to the ionizing laser pulse. Using this technique, we uncover a microsecond-long period of a stable plasma density followed by a rapid decay in density. The stability of the plasma after ionization has implications for the design of much longer vapor cells that could be used to accelerate particle beams to extremely high energies.arXiv:2006.09991oai:cds.cern.ch:27224062020-06-17 |
| spellingShingle | physics.plasm-ph Other Fields of Physics physics.acc-ph Accelerators and Storage Rings Gessner, S. Adli, E. Apsimon, O. Apsimon, R. Bachmann, A.-M. Batsch, F. Bracco, C. Braunmuller, F. Burger, S. Burt, G. Buttenschon, B. Caldwell, A. Chappell, J. Chevallay, E. Chung, M. Cooke, D. Damerau, H. Demeter, G. Deubner, L.H. Dexter, A. Doebert, S. Farmer, J. Fedosseev, V.N. Fiorito, R. Fonseca, R.A. Friebel, F. Garolfi, L. Goddard, B. Gorgisyan, I. Gorn, A.A. Granados, E. Grulke, O. Gschwendtner, E. Hartin, A. Helm, A. Henderson, J.R. Huther, M. Ibison, M. Jolly, S. Keeble, F. Kelisani, M.D. Khudyakov, V.K. Kim, S.-Y. Kraus, F. Krupa, M. Lefevre, T. Li, Y. Liu, S. Lopes, N. Lotov, K.V. Martyanov, M. Mazzoni, S. Minakov, V.A. Molendijk, J.C. Moody, J.T. Moreira, M. Panuganti, H. Pardons, A. Pena Asmus, F. Perera, A. Petrenko, A. Pukhov, A. Rey, S. Ruhl, H. Saberi, H. Sherwood, P. Silva, L.O. Sosedkin, A.P. Sublet, A. Tuev, P.V. Turner, M. Velotti, F. Verra, L. Verzilov, V.A. Vieira, J. Welsch, C.P. Wendt, M. Williamson, B. Wing, M. Woolley, B. Xia, G. Zevi Della Porta, G. Evolution of a plasma column measured through modulation of a high-energy proton beam |
| title | Evolution of a plasma column measured through modulation of a high-energy proton beam |
| title_full | Evolution of a plasma column measured through modulation of a high-energy proton beam |
| title_fullStr | Evolution of a plasma column measured through modulation of a high-energy proton beam |
| title_full_unstemmed | Evolution of a plasma column measured through modulation of a high-energy proton beam |
| title_short | Evolution of a plasma column measured through modulation of a high-energy proton beam |
| title_sort | evolution of a plasma column measured through modulation of a high-energy proton beam |
| topic | physics.plasm-ph Other Fields of Physics physics.acc-ph Accelerators and Storage Rings |
| url | http://cds.cern.ch/record/2722406 |
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