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CERN Document Server 找到 75 筆記錄  1 - 10下一個最後  跳到記錄: 檢索需時 0.60 秒. 
1.
Beam Breakup Instability Studies of Powerful Energy Recovery Linac for Experiments / Setiniyaz, Sadiq (Jefferson Lab ; Lancaster U. ; Daresbury) ; Apsimon, R. (Lancaster U. ; Daresbury) ; Williams, P.H. (Daresbury) ; Barbagallo, C. (IJCLab, Orsay ; IPhT, Saclay ; CERN) ; Bogacz, S.A. (Jefferson Lab) ; Bodenstein, R.M. (Jefferson Lab) ; Deitrick, K. (Jefferson Lab)
The maximum achievable beam current in an Energy Recovery Linac (ERL) is often constrained by Beam Breakup (BBU) instability. [...]
arXiv:2409.02798.
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Fulltext
2.
Beam dynamics driven design of powerful energy recovery linac for experiments / Bogacz, S A (Jefferson Lab) ; André, K D J (CERN) ; Brüning, O (CERN) ; Holzer, B J (CERN) ; Hounsell, B R (U. Liverpool (main)) ; Klein, M (U. Liverpool (main)) ; Militsyn, B L (Daresbury) ; Williams, P H (Daresbury) ; Segurana, G Pérez (Lancaster U.) ; Bailey, I (Lancaster U.) et al.
Powerful ERL for experiments (PERLE) is a novel energy recovery linac (ERL) test facility [1], designed to validate choices for a 50 GeV ERL foreseen in the design of the Large Hadron Electron Collider and the Future Circular Collider and to host dedicated nuclear and particle physics experiments. Its main goal is to demonstrate the high current, continuous wave, multipass operation with superconducting cavities at 802 MHz. [...]
2024 - 15 p. - Published in : Phys. Rev. Accel. Beams 27 (2024) 031603 Fulltext: PDF;
3.
Overview of the LHeC and FCC-he accelerator concepts / Holzer, B J (CERN) ; André, K D J (CERN) ; Armesto, N (Santiago de Compostela U., IGFAE) ; Bogacz, S A (Jefferson Lab) ; Hanstock, D (Liverpool U.) ; Hounsell, B (Liverpool U.) ; Klein, M (CERN ; Liverpool U.) ; Kostka, P (CERN ; Liverpool U.) ; Smith, M W R (Liverpool U.) ; von Witzleben, T (CERN)
The Large Hadron–Electron Collider (LHeC) is designed to move the field of deep inelastic scattering (DIS) to the energy and intensity frontier of particle physics. Exploiting energy- recovery technology, it collides a novel, intense electron beam with a proton or ion beam from the High-Luminosity Large Hadron Collider (HL-LHC). [...]
2022 - 6 p. - Published in : PoS: ICHEP2022, pp. 057
Fulltext: PDF; External link: JLAB Document Server
In : 41st International Conference on High Energy Physics (ICHEP 2022), Bologna, Italy, 6 - 13 Jul 2022, pp.057
4.
Strong Interaction Physics at the Luminosity Frontier with 22 GeV Electrons at Jefferson Lab / Accardi, A. (Hampton U.) ; Achenbach, P. (Jefferson Lab) ; Adhikari, D. (Virginia Tech.) ; Afanasev, A. (George Washington U.) ; Akondi, C.S. (Florida State U.) ; Akopov, N. (Yerevan Phys. Inst.) ; Albaladejo, M. (Valencia U., IFIC) ; Albataineh, H. (Texas A-M ; HARC, Woodlands) ; Albrecht, M. (Jefferson Lab) ; Almeida-Zamora, B. (Sonora U.) et al.
This document presents the initial scientific case for upgrading the Continuous Electron Beam Accelerator Facility (CEBAF) at Jefferson Lab (JLab) to 22 GeV. It is the result of a community effort, incorporating insights from a series of workshops conducted between March 2022 and April 2023. [...]
arXiv:2306.09360; JLAB-PHY-23-3840; JLAB-THY-23-3848.- 2024-09-04 - 139 p. - Published in : Eur. Phys. J. A 60 (2024) 173 Fulltext: PDF; External link: JLab Document Server
5.
Parametrizations of coupled betatron motion for strongly coupled lattices / Vanwelde, Marion (U. Brussels (main)) ; Hernalsteens, Cédric (CERN ; U. Brussels (main)) ; Bogacz, S. Alex (Jefferson Lab) ; Machida, Shinji (Rutherford) ; Pauly, Nicolas (U. Brussels (main))
The coupling of transverse motion is a natural occurrence in particle accelerators, either in the form of a residual coupling arising from imperfections or originating by design from strong systematic coupling fields. While the first can be treated perturbatively, the latter requires a robust approach adapted to strongly coupled optics and a parametrization of the linear optics must be performed to explore beam dynamics in such peculiar lattices. [...]
arXiv:2210.11866.- 2023-10-12 - 23 p. - Published in : JINST 18 (2023) P10012 Fulltext: 2210.11866 - PDF; document - PDF; External link: JLAB Document Server
6.
The present and future of QCD / Achenbach, P. (Jefferson Lab) ; Adhikari, D. (Virginia Tech.) ; Afanasev, A. (George Washington U. ; Jefferson Lab) ; Afzal, F. (Bonn U., HISKP ; Bonn U.) ; Aidala, C.A. (Michigan U.) ; Al-bataineh, A. (Jordan U. Sci. Tech. ; Yarmouk U. ; Kansas U.) ; Almaalol, D.K. (Illinois U., Urbana ; Illinois U., Urbana (main)) ; Amaryan, M. (Old Dominion U. ; Old Dominion U. (main)) ; Androić, D. (Zagreb U.) ; Armstrong, W.R. (Argonne ; Argonne, PHY) et al.
This White Paper presents the community inputs and scientific conclusions from the Hot and Cold QCD Town Meeting that took place September 23-25, 2022 at MIT, as part of the Nuclear Science Advisory Committee (NSAC) 2023 Long Range Planning process. A total of 424 physicists registered for the meeting. [...]
arXiv:2303.02579; JLAB-PHY-23-3808.- 2024-04-15 - 111 p. - Published in : Nucl. Phys. A 1047 (2024) 122874 Fulltext: 2303.02579 - PDF; Publication - PDF; External link: JLab Document Server
7.
Promising Technologies and R&D Directions for the Future Muon Collider Detectors / Muon Collider Collaboration
Among the post-LHC generation of particle accelerators, the muon collider represents a unique machine with capability to provide very high energy leptonic collisions and to open the path to a vast and mostly unexplored physics programme. [...]
arXiv:2203.07224.
- 31.
Fermilab Library Server - eConf - Fulltext - Fulltext
8.
An Energy Recovery Linac for the LHC / Bogacz, S. Alex (CERN ; Jefferson Lab) ; Holzer, Bernhard J. (CERN ; Jefferson Lab) ; Osborne, John A. (CERN ; Jefferson Lab)
The LHeC provides an intense, high energy electron beam to collide with the LHC. It represents the highest energy application of energy recovery linac (ERL) technology which is increasingly recognized as one of the major pilot technologies for the development of particle physics because it utilizes and stimulates superconducting RF technology progress, and it increases intensity while keeping the power consumption low. [...]
arXiv:2206.07678; JLAB-ACP-22-3653.- 2023 - 37 p. - Published in : 10.1142/9789811280184_0022 Fulltext: 2206.07678 - PDF; document - PDF; External link: JLab Document Server
In : The future of the Large Hadron Collider, pp.305-320
9.
An Experiment for Electron-Hadron Scattering at the LHC / André, K.D. J. (CERN ; Liverpool U.) ; Aperio Bella, L. (DESY) ; Armesto, N. (Santiago de Compostela U., IGFAE) ; Bogacz, S.A. (Jefferson Lab) ; Britzger, D. (Munich, Max Planck Inst.) ; Brüning, O.S. (CERN) ; D'Onofrio, M. (Liverpool U.) ; Ferreiro, E.G. (Santiago de Compostela U., IGFAE) ; Fischer, O. (Liverpool U.) ; Gwenlan, C. (Oxford U.) et al.
Novel considerations are presented on the physics, apparatus and accelerator designs for a future, luminous, energy frontier electron-hadron ($eh$) scattering experiment at the LHC in the thirties for which key physics topics and their relation to the hadron-hadron HL-LHC physics programme are discussed. Demands are derived set by these physics topics on the design of the LHeC detector, a corresponding update of which is described. [...]
arXiv:2201.02436.- 2022-01-15 - 27 p. - Published in : Eur. Phys. J. C 82 (2022) 40 Fulltext: 2201.02436 - PDF; document - PDF;
10.
Design and Principles of Linear Accelerators and Colliders / Seeman, J (SLAC) ; Schulte, D (CERN) ; Delahaye, J P (CERN) ; Ross, M (SLAC) ; Stapnes, S (CERN) ; Grudiev, A (CERN) ; Yamamoto, A (CERN ; KEK, Tsukuba) ; Latina, A (CERN) ; Seryi, A (Jefferson Lab) ; Tomás García, R (CERN) et al.
Linear accelerators (linacs) use alternating radiofrequency (RF) electromagnetic fields to accelerate charged particles in a straight line. Linacs were invented about 95 years ago and have seen many significant technical innovations since. [...]
Cham : Springer, 2020 - 42 p. - Published in : 10.1007/978-3-030-34245-6_7 Fulltext: PDF;
In : Particle physics reference library, pp.295-336

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