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EuPRAXIA – a compact, cost-efficient particle and radiation source
Plasma accelerators present one of the most suitable candidates for the development of more compact particle acceleration technologies, yet they still lag behind radiofrequency (RF)-based devices when it comes to beam quality, control, stability and power efficiency. The Horizon 2020-funded project...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2019
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1063/1.5127692 http://cds.cern.ch/record/2837866 |
| _version_ | 1780975894540582912 |
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| author | Weikum, M K Akhter, T Alesini, P D Alexandrova, A S Anania, M P Andreev, N E Andriyash, I Aschikhin, A Assmann, R W Audet, T Bacci, A Barna, I F Beaton, A Beck, A Beluze, A Bernhard, A Bielawski, S Bisesto, F G Brandi, F Bringer, O Brinkmann, R Bründermann, E Büscher, M Bussmann, M Bussolino, G C Chance, A Chanteloup, J C Chen, M Chiadroni, E Cianchi, A Clarke, J Cole, J Couprie, M E Croia, M Cros, B Crump, P Dattoli, G Delerue, N Delferriere, O Delinikolas, P De Nicola, S Dias, J Dorda, U Fedele, R Pousa, A Ferran Ferrario, M Filippi, F Fils, J Fiore, G Fonseca, R A Galimberti, M Gallo, A Garzella, D Gastinel, P Giove, D Giribono, A Gizzi, L A Grüner, F J Habib, A F Heinemann, T Hidding, B Holzer, B J Hooker, S M Hosokai, T Hübner, M Irman, A Jafarinia, F Jaroszynski, D A Jaster-Merz, S Joshi, C Kaluza, M C Kando, M Karger, O S Karsch, S Khazanov, E Khikhlukha, D Knetsch, A Kocon, D Koester, P Kononenko, O Korn, G Kostyukov, I Kruchinin, K Labate, L Lechner, C Leemans, W P Lehrach, A Li, F Y Li, X Libov, V Lifschitz, A Litvinenko, V Lu, W Lundh, O Maier, A R Malka, V Manahan, G G Mangles, S P D Marchetti, B Marocchino, A de la Ossa, A Martinez Martins, J L Mason, P Massimo, F Mathieu, F Maynard, G Mazzotta, Z Mehrling, T J Molodozhentsev, A Y Mostacci, A Müller, A S Murphy, C D Najmudin, Z Nghiem, P A P Nguyen, F Niknejadi, P Osterhoff, J Papadopoulos, D Patrizi, B Petrillo, V Pocsai, M A Poder, K Pompili, R Pribyl, L Pugacheva, D Romeo, S Rajeev, P P Rossetti Conti, M Rossi, A R Rossmanith, R Roussel, E Sahai, A A Sarri, G Schaper, L Scherkl, P Schramm, U Schroeder, C B Schwindling, J Scifo, J Serafini, L Sheng, Z M Silva, L O Silva, T Simon, C Sinha, U Specka, A Streeter, M J V Svystun, E N Symes, D Szwaj, C Tauscher, G Terzani, D Thompson, N Toci, G Tomassini, P Torres, R Ullmann, D Vaccarezza, C Vannini, M Vieira, J M Villa, F Wahlström, C -G Walczak, R Walker, P A Wang, K Welsch, C P Wolfenden, J Xia, G Yabashi, M Yu, L Zhu, J Zigler, A |
| author_facet | Weikum, M K Akhter, T Alesini, P D Alexandrova, A S Anania, M P Andreev, N E Andriyash, I Aschikhin, A Assmann, R W Audet, T Bacci, A Barna, I F Beaton, A Beck, A Beluze, A Bernhard, A Bielawski, S Bisesto, F G Brandi, F Bringer, O Brinkmann, R Bründermann, E Büscher, M Bussmann, M Bussolino, G C Chance, A Chanteloup, J C Chen, M Chiadroni, E Cianchi, A Clarke, J Cole, J Couprie, M E Croia, M Cros, B Crump, P Dattoli, G Delerue, N Delferriere, O Delinikolas, P De Nicola, S Dias, J Dorda, U Fedele, R Pousa, A Ferran Ferrario, M Filippi, F Fils, J Fiore, G Fonseca, R A Galimberti, M Gallo, A Garzella, D Gastinel, P Giove, D Giribono, A Gizzi, L A Grüner, F J Habib, A F Heinemann, T Hidding, B Holzer, B J Hooker, S M Hosokai, T Hübner, M Irman, A Jafarinia, F Jaroszynski, D A Jaster-Merz, S Joshi, C Kaluza, M C Kando, M Karger, O S Karsch, S Khazanov, E Khikhlukha, D Knetsch, A Kocon, D Koester, P Kononenko, O Korn, G Kostyukov, I Kruchinin, K Labate, L Lechner, C Leemans, W P Lehrach, A Li, F Y Li, X Libov, V Lifschitz, A Litvinenko, V Lu, W Lundh, O Maier, A R Malka, V Manahan, G G Mangles, S P D Marchetti, B Marocchino, A de la Ossa, A Martinez Martins, J L Mason, P Massimo, F Mathieu, F Maynard, G Mazzotta, Z Mehrling, T J Molodozhentsev, A Y Mostacci, A Müller, A S Murphy, C D Najmudin, Z Nghiem, P A P Nguyen, F Niknejadi, P Osterhoff, J Papadopoulos, D Patrizi, B Petrillo, V Pocsai, M A Poder, K Pompili, R Pribyl, L Pugacheva, D Romeo, S Rajeev, P P Rossetti Conti, M Rossi, A R Rossmanith, R Roussel, E Sahai, A A Sarri, G Schaper, L Scherkl, P Schramm, U Schroeder, C B Schwindling, J Scifo, J Serafini, L Sheng, Z M Silva, L O Silva, T Simon, C Sinha, U Specka, A Streeter, M J V Svystun, E N Symes, D Szwaj, C Tauscher, G Terzani, D Thompson, N Toci, G Tomassini, P Torres, R Ullmann, D Vaccarezza, C Vannini, M Vieira, J M Villa, F Wahlström, C -G Walczak, R Walker, P A Wang, K Welsch, C P Wolfenden, J Xia, G Yabashi, M Yu, L Zhu, J Zigler, A |
| author_sort | Weikum, M K |
| collection | CERN |
| description | Plasma accelerators present one of the most suitable candidates for the development of more compact particle
acceleration technologies, yet they still lag behind radiofrequency (RF)-based devices when it comes to beam quality,
control, stability and power efficiency. The Horizon 2020-funded project EuPRAXIA (“European Plasma Research
Accelerator with eXcellence In Applications”) aims to overcome the first three of these hurdles by developing a
conceptual design for a first international user facility based on plasma acceleration. In this paper we report on the main
features, simulation studies and potential applications of this future research infrastructure. |
| id | cern-2837866 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2019 |
| record_format | invenio |
| spelling | cern-28378662022-10-20T21:05:08Zdoi:10.1063/1.5127692http://cds.cern.ch/record/2837866engWeikum, M KAkhter, TAlesini, P DAlexandrova, A SAnania, M PAndreev, N EAndriyash, IAschikhin, AAssmann, R WAudet, TBacci, ABarna, I FBeaton, ABeck, ABeluze, ABernhard, ABielawski, SBisesto, F GBrandi, FBringer, OBrinkmann, RBründermann, EBüscher, MBussmann, MBussolino, G CChance, AChanteloup, J CChen, MChiadroni, ECianchi, AClarke, JCole, JCouprie, M ECroia, MCros, BCrump, PDattoli, GDelerue, NDelferriere, ODelinikolas, PDe Nicola, SDias, JDorda, UFedele, RPousa, A FerranFerrario, MFilippi, FFils, JFiore, GFonseca, R AGalimberti, MGallo, AGarzella, DGastinel, PGiove, DGiribono, AGizzi, L AGrüner, F JHabib, A FHeinemann, THidding, BHolzer, B JHooker, S MHosokai, THübner, MIrman, AJafarinia, FJaroszynski, D AJaster-Merz, SJoshi, CKaluza, M CKando, MKarger, O SKarsch, SKhazanov, EKhikhlukha, DKnetsch, AKocon, DKoester, PKononenko, OKorn, GKostyukov, IKruchinin, KLabate, LLechner, CLeemans, W PLehrach, ALi, F YLi, XLibov, VLifschitz, ALitvinenko, VLu, WLundh, OMaier, A RMalka, VManahan, G GMangles, S P DMarchetti, BMarocchino, Ade la Ossa, A MartinezMartins, J LMason, PMassimo, FMathieu, FMaynard, GMazzotta, ZMehrling, T JMolodozhentsev, A YMostacci, AMüller, A SMurphy, C DNajmudin, ZNghiem, P A PNguyen, FNiknejadi, POsterhoff, JPapadopoulos, DPatrizi, BPetrillo, VPocsai, M APoder, KPompili, RPribyl, LPugacheva, DRomeo, SRajeev, P PRossetti Conti, MRossi, A RRossmanith, RRoussel, ESahai, A ASarri, GSchaper, LScherkl, PSchramm, USchroeder, C BSchwindling, JScifo, JSerafini, LSheng, Z MSilva, L OSilva, TSimon, CSinha, USpecka, AStreeter, M J VSvystun, E NSymes, DSzwaj, CTauscher, GTerzani, DThompson, NToci, GTomassini, PTorres, RUllmann, DVaccarezza, CVannini, MVieira, J MVilla, FWahlström, C -GWalczak, RWalker, P AWang, KWelsch, C PWolfenden, JXia, GYabashi, MYu, LZhu, JZigler, AEuPRAXIA – a compact, cost-efficient particle and radiation sourceAccelerators and Storage RingsPlasma accelerators present one of the most suitable candidates for the development of more compact particle acceleration technologies, yet they still lag behind radiofrequency (RF)-based devices when it comes to beam quality, control, stability and power efficiency. The Horizon 2020-funded project EuPRAXIA (“European Plasma Research Accelerator with eXcellence In Applications”) aims to overcome the first three of these hurdles by developing a conceptual design for a first international user facility based on plasma acceleration. In this paper we report on the main features, simulation studies and potential applications of this future research infrastructure.oai:cds.cern.ch:28378662019 |
| spellingShingle | Accelerators and Storage Rings Weikum, M K Akhter, T Alesini, P D Alexandrova, A S Anania, M P Andreev, N E Andriyash, I Aschikhin, A Assmann, R W Audet, T Bacci, A Barna, I F Beaton, A Beck, A Beluze, A Bernhard, A Bielawski, S Bisesto, F G Brandi, F Bringer, O Brinkmann, R Bründermann, E Büscher, M Bussmann, M Bussolino, G C Chance, A Chanteloup, J C Chen, M Chiadroni, E Cianchi, A Clarke, J Cole, J Couprie, M E Croia, M Cros, B Crump, P Dattoli, G Delerue, N Delferriere, O Delinikolas, P De Nicola, S Dias, J Dorda, U Fedele, R Pousa, A Ferran Ferrario, M Filippi, F Fils, J Fiore, G Fonseca, R A Galimberti, M Gallo, A Garzella, D Gastinel, P Giove, D Giribono, A Gizzi, L A Grüner, F J Habib, A F Heinemann, T Hidding, B Holzer, B J Hooker, S M Hosokai, T Hübner, M Irman, A Jafarinia, F Jaroszynski, D A Jaster-Merz, S Joshi, C Kaluza, M C Kando, M Karger, O S Karsch, S Khazanov, E Khikhlukha, D Knetsch, A Kocon, D Koester, P Kononenko, O Korn, G Kostyukov, I Kruchinin, K Labate, L Lechner, C Leemans, W P Lehrach, A Li, F Y Li, X Libov, V Lifschitz, A Litvinenko, V Lu, W Lundh, O Maier, A R Malka, V Manahan, G G Mangles, S P D Marchetti, B Marocchino, A de la Ossa, A Martinez Martins, J L Mason, P Massimo, F Mathieu, F Maynard, G Mazzotta, Z Mehrling, T J Molodozhentsev, A Y Mostacci, A Müller, A S Murphy, C D Najmudin, Z Nghiem, P A P Nguyen, F Niknejadi, P Osterhoff, J Papadopoulos, D Patrizi, B Petrillo, V Pocsai, M A Poder, K Pompili, R Pribyl, L Pugacheva, D Romeo, S Rajeev, P P Rossetti Conti, M Rossi, A R Rossmanith, R Roussel, E Sahai, A A Sarri, G Schaper, L Scherkl, P Schramm, U Schroeder, C B Schwindling, J Scifo, J Serafini, L Sheng, Z M Silva, L O Silva, T Simon, C Sinha, U Specka, A Streeter, M J V Svystun, E N Symes, D Szwaj, C Tauscher, G Terzani, D Thompson, N Toci, G Tomassini, P Torres, R Ullmann, D Vaccarezza, C Vannini, M Vieira, J M Villa, F Wahlström, C -G Walczak, R Walker, P A Wang, K Welsch, C P Wolfenden, J Xia, G Yabashi, M Yu, L Zhu, J Zigler, A EuPRAXIA – a compact, cost-efficient particle and radiation source |
| title | EuPRAXIA – a compact, cost-efficient particle and radiation source |
| title_full | EuPRAXIA – a compact, cost-efficient particle and radiation source |
| title_fullStr | EuPRAXIA – a compact, cost-efficient particle and radiation source |
| title_full_unstemmed | EuPRAXIA – a compact, cost-efficient particle and radiation source |
| title_short | EuPRAXIA – a compact, cost-efficient particle and radiation source |
| title_sort | eupraxia – a compact, cost-efficient particle and radiation source |
| topic | Accelerators and Storage Rings |
| url | https://dx.doi.org/10.1063/1.5127692 http://cds.cern.ch/record/2837866 |
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