A pulsed high-voltage decelerator system to deliver low-energy antiprotons

Husson, A.; Kim, B.H.; Welker, A.; Charlton, M.; Choi, J.J.; Chung, M.; Cladé, P.; Comini, P.; Crépin, P.-P.; Crivelli, P.; Dalkarov, O.; Debu, P.; Dodd, L.; Douillet, A.; Guellati-Khélifa, S.; Garroum, N.; Hervieux, P.-A.; Hilico, L.; Indelicato, P.; Janka, G.; Jonsell, S.; Karr, J.-P.; Kim, E.-S.; Kim, S.K.; Ko, Y.; Kosinski, T.; Kuroda, N.; Latacz, B.; Lee, H.; Lee, J.; Leite, A.M.M.; Lévêque, K.; Lim, E.; Liszkay, L.; Lotrus, P.; Lunney, D.; Manfredi, G.; Mansoulié, B.; Matusiak, M.; Mornacchi, G.; Nesvizhevsky, V.V.; Nez, F.; Niang, S.; Nishi, R.; Nourbaksh, S.; Park, K.H.; Paul, N.; Pérez, P.; Procureur, S.; Radics, B.; Regenfus, C.; Reymond, J.-M.; Reynaud, S.; Roussé, J.-Y.; Rousselle, O.; Rubbia, A.; Rzadkiewicz, J.; Sacquin, Y.; Schmidt-Kaler, F.; Staszczak, M.; Tuchming, B.; Vallage, B.; Voronin, A.; van, der Werf D.P.; Wolf, S.; Won, D.; Wronka, S.; Yamazaki, Y.; Yoo, K.-H.

doi:10.1016/j.nima.2021.165245

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A pulsed high-voltage decelerator system to deliver low-energy antiprotonsopen access

Authors: Husson, A.; Kim, B.H.; Welker, A.; Charlton, M.; Choi, J.J.; Chung, M.; Cladé, P.; Comini, P.; Crépin, P.-P.; Crivelli, P.; Dalkarov, O.; Debu, P.; Dodd, L.; Douillet, A.; Guellati-Khélifa, S.; Garroum, N.; Hervieux, P.-A.; Hilico, L.; Indelicato, P.; Janka, G.; Jonsell, S.; Karr, J.-P.; Kim, E.-S.; Kim, S.K.; Ko, Y.; Kosinski, T.; Kuroda, N.; Latacz, B.; Lee, H.; Lee, J.; Leite, A.M.M.; Lévêque, K.; Lim, E.; Liszkay, L.; Lotrus, P.; Lunney, D.; Manfredi, G.; Mansoulié, B.; Matusiak, M.; Mornacchi, G.; Nesvizhevsky, V.V.; Nez, F.; Niang, S.; Nishi, R.; Nourbaksh, S.; Park, K.H.; Paul, N.; Pérez, P.; Procureur, S.; Radics, B.; Regenfus, C.; Reymond, J.-M.; Reynaud, S.; Roussé, J.-Y.; Rousselle, O.; Rubbia, A.; Rzadkiewicz, J.; Sacquin, Y.; Schmidt-Kaler, F.; Staszczak, M.; Tuchming, B.; Vallage, B.; Voronin, A.; van, der Werf D.P.; Wolf, S.; Won, D.; Wronka, S.; Yamazaki, Y.; Yoo, K.-H.

Issue Date: 2021

Publisher: Elsevier B.V.

Keywords: Antihydrogen; Charged-particle optics; General Relativity; Ion-optic simulations

Citation: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, v.1002

Indexed: SCIE
SCOPUS

Journal Title: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

Volume: 1002

URI: https://scholar.korea.ac.kr/handle/2021.sw.korea/147156

DOI: 10.1016/j.nima.2021.165245

ISSN: 0168-9002

Abstract: The GBAR (Gravitational Behavior 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 antiprotons from ELENA. © 2021 Elsevier B.V.

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Appears in Collections: Graduate School > Department of Accelerator Science > 1. Journal Articles

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