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A pulsed high-voltage decelerator system to deliver low-energy antiprotons
A. Husson,
B.H. Kim,
A. Welker,
Michael Charlton,
J.J. Choi,
M. Chung,
P. Cladé,
P. Comini,
P.-P. Crépin,
P. Crivelli,
O. Dalkarov,
P. Debu,
L. Dodd,
A. Douillet,
S. Guellati-Khélifa,
N. Garroum,
P.-A. Hervieux,
L. Hilico,
P. Indelicato,
G. Janka,
S. Jonsell,
J.-P. Karr,
E.-S. Kim,
S.K. Kim,
Y. Ko,
T. Kosinski,
N. Kuroda,
B. Latacz,
H. Lee,
J. Lee,
A.M.M. Leite,
K. Lévêque,
E. Lim,
L. Liszkay,
P. Lotrus,
D. Lunney,
G. Manfredi,
B. Mansoulié,
M. Matusiak,
G. Mornacchi,
V.V. Nesvizhevsky,
F. Nez,
S. Niang,
R. Nishi,
S. Nourbaksh,
K.H. Park,
N. Paul,
P. Pérez,
S. Procureur,
B. Radics,
C. Regenfus,
J.-M. Reymond,
S. Reynaud,
J.-Y. Roussé,
O. Rousselle,
A. Rubbia,
J. Rzadkiewicz,
Y. Sacquin,
F. Schmidt-Kaler,
M. Staszczak,
B. Tuchming,
B. Vallage,
A. Voronin,
Dirk van der Werf 
,
S. Wolf,
D. Won,
S. Wronka,
Y. Yamazaki,
K.-H. Yoo
,
S. Wolf,
D. Won,
S. Wronka,
Y. Yamazaki,
K.-H. Yoo
Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Volume: 1002, Start page: 165245
Swansea University Authors:
Michael Charlton, Dirk van der Werf
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DOI (Published version): 10.1016/j.nima.2021.165245
Abstract
The GBAR (Gravitational Behaviour of Antihydrogen at Rest) experiment at CERN requires efficient deceleration of 100 keV antiprotons provided by the new ELENA synchrotron ring to synthesize antihydrogen. This is accomplished using electrostatic deceleration optics and a drift tube that is designed t...
| Published in: | Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment |
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| ISSN: | 0168-9002 |
| Published: |
Elsevier BV
2021
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa57076 |
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| spelling |
2021-06-10T15:57:50.2728779 v2 57076 2021-06-09 A pulsed high-voltage decelerator system to deliver low-energy antiprotons d9099cdd0f182eb9a1c8fc36ed94f53f Michael Charlton Michael Charlton true false 4a4149ebce588e432f310f4ab44dd82a 0000-0001-5436-5214 Dirk van der Werf Dirk van der Werf true false 2021-06-09 FGSEN The GBAR (Gravitational Behaviour of Antihydrogen at Rest) experiment at CERN requires efficient deceleration of 100 keV antiprotons provided by the new ELENA synchrotron ring to synthesize antihydrogen. This is accomplished using electrostatic deceleration optics and a drift tube that is designed to switch from -99 kV to ground when the antiproton bunch is inside - essentially a charged-particle “elevator” - producing a 1 keV pulse. We describe the simulation, design, construction and successful testing of the decelerator device at -92 kV on-line with ELENA. Journal Article Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 1002 165245 Elsevier BV 0168-9002 Antihydrogen; General Relativity; Charged-particle optics; Ion-optic simulations 1 6 2021 2021-06-01 10.1016/j.nima.2021.165245 COLLEGE NANME Science and Engineering - Faculty COLLEGE CODE FGSEN Swansea University France’s IN2P3 Grant: ANR-14-CE33-0008 Laboratoire d’Excellence P2IO Grant: ANR-10-LABX-0038 2021-06-10T15:57:50.2728779 2021-06-09T17:09:29.9716101 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Physics A. Husson 1 B.H. Kim 2 A. Welker 3 Michael Charlton 4 J.J. Choi 5 M. Chung 6 P. Cladé 7 P. Comini 8 P.-P. Crépin 9 P. Crivelli 10 O. Dalkarov 11 P. Debu 12 L. Dodd 13 A. Douillet 14 S. Guellati-Khélifa 15 N. Garroum 16 P.-A. Hervieux 17 L. Hilico 18 P. Indelicato 19 G. Janka 20 S. Jonsell 21 J.-P. Karr 22 E.-S. Kim 23 S.K. Kim 24 Y. Ko 25 T. Kosinski 26 N. Kuroda 27 B. Latacz 28 H. Lee 29 J. Lee 30 A.M.M. Leite 31 K. Lévêque 32 E. Lim 33 L. Liszkay 34 P. Lotrus 35 D. Lunney 36 G. Manfredi 37 B. Mansoulié 38 M. Matusiak 39 G. Mornacchi 40 V.V. Nesvizhevsky 41 F. Nez 42 S. Niang 43 R. Nishi 44 S. Nourbaksh 45 K.H. Park 46 N. Paul 47 P. Pérez 48 S. Procureur 49 B. Radics 50 C. Regenfus 51 J.-M. Reymond 52 S. Reynaud 53 J.-Y. Roussé 54 O. Rousselle 55 A. Rubbia 56 J. Rzadkiewicz 57 Y. Sacquin 58 F. Schmidt-Kaler 59 M. Staszczak 60 B. Tuchming 61 B. Vallage 62 A. Voronin 63 Dirk van der Werf 0000-0001-5436-5214 64 S. Wolf 65 D. Won 66 S. Wronka 67 Y. Yamazaki 68 K.-H. Yoo 69 57076__20126__b24653049d2d4dc18e533ec20266bce2.pdf 57076.pdf 2021-06-10T15:50:36.8722854 Output 4218023 application/pdf Accepted Manuscript true 2022-03-23T00:00:00.0000000 ©2021 All rights reserved. All article content, except where otherwise noted, is licensed under a Creative Commons Attribution Non-Commercial No Derivatives License (CC-BY-NC-ND) true eng https://creativecommons.org/licenses/by-nc-nd/4.0/ |
| title |
A pulsed high-voltage decelerator system to deliver low-energy antiprotons |
| spellingShingle |
A pulsed high-voltage decelerator system to deliver low-energy antiprotons Michael Charlton Dirk van der Werf |
| title_short |
A pulsed high-voltage decelerator system to deliver low-energy antiprotons |
| title_full |
A pulsed high-voltage decelerator system to deliver low-energy antiprotons |
| title_fullStr |
A pulsed high-voltage decelerator system to deliver low-energy antiprotons |
| title_full_unstemmed |
A pulsed high-voltage decelerator system to deliver low-energy antiprotons |
| title_sort |
A pulsed high-voltage decelerator system to deliver low-energy antiprotons |
| author_id_str_mv |
d9099cdd0f182eb9a1c8fc36ed94f53f 4a4149ebce588e432f310f4ab44dd82a |
| author_id_fullname_str_mv |
d9099cdd0f182eb9a1c8fc36ed94f53f_***_Michael Charlton 4a4149ebce588e432f310f4ab44dd82a_***_Dirk van der Werf |
| author |
Michael Charlton Dirk van der Werf |
| author2 |
A. Husson B.H. Kim A. Welker Michael Charlton J.J. Choi M. Chung P. Cladé P. Comini P.-P. Crépin P. Crivelli O. Dalkarov P. Debu L. Dodd A. Douillet S. Guellati-Khélifa N. Garroum P.-A. Hervieux L. Hilico P. Indelicato G. Janka S. Jonsell J.-P. Karr E.-S. Kim S.K. Kim Y. Ko T. Kosinski N. Kuroda B. Latacz H. Lee J. Lee A.M.M. Leite K. Lévêque E. Lim L. Liszkay P. Lotrus D. Lunney G. Manfredi B. Mansoulié M. Matusiak G. Mornacchi V.V. Nesvizhevsky F. Nez S. Niang R. Nishi S. Nourbaksh K.H. Park N. Paul P. Pérez S. Procureur B. Radics C. Regenfus J.-M. Reymond S. Reynaud J.-Y. Roussé O. Rousselle A. Rubbia J. Rzadkiewicz Y. Sacquin F. Schmidt-Kaler M. Staszczak B. Tuchming B. Vallage A. Voronin Dirk van der Werf S. Wolf D. Won S. Wronka Y. Yamazaki K.-H. Yoo |
| format |
Journal article |
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Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment |
| container_volume |
1002 |
| container_start_page |
165245 |
| publishDate |
2021 |
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Swansea University |
| issn |
0168-9002 |
| doi_str_mv |
10.1016/j.nima.2021.165245 |
| publisher |
Elsevier BV |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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School of Biosciences, Geography and Physics - Physics{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Biosciences, Geography and Physics - Physics |
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| description |
The GBAR (Gravitational Behaviour of Antihydrogen at Rest) experiment at CERN requires efficient deceleration of 100 keV antiprotons provided by the new ELENA synchrotron ring to synthesize antihydrogen. This is accomplished using electrostatic deceleration optics and a drift tube that is designed to switch from -99 kV to ground when the antiproton bunch is inside - essentially a charged-particle “elevator” - producing a 1 keV pulse. We describe the simulation, design, construction and successful testing of the decelerator device at -92 kV on-line with ELENA. |
| published_date |
2021-06-01T04:12:32Z |
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1763753855574605824 |
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11.036706 |