Accelerator design concept for future neutrino facilities

M. Apollonio, J. S. Berg, A. Blondel, A. Bogacz, S. Brooks, J. E. Campagne, D. Caspar, C. Cavata, P. Chimenti, J. Cobb, M. Dracos, R. Edgecock, I. Efthymiopoulos, A. Fabich, R. Fernow, F. Filthaut, J. Gallardo, R. Garoby, S. Geer, F. GerigkG. Hanson, R. Johnson, C. Johnstone, D. Kaplan, E. Keil, H. Kirk, A. Klier, A. Kurup, J. Lettry, K. Long, S. MacHida, K. McDonald, F. Méot, Y. Mori, D. Neuffer, V. Palladino, R. Palmer, K. Paul, A. Poklonskiy, M. Popovic, C. Prior, G. Rees, C. Rossi, T. Rovelli, R. Sandström, R. Sevior, P. Sievers, N. Simos, Y. Torun, M. Vretenar, Koji Yoshimura, M. S. Zisman

Research output: Contribution to journalArticle

71 Citations (Scopus)

Abstract

This document summarizes the work of the Accelerator Working Group (AWG) of the International Scoping Study (ISS) of a Future Neutrino Factory and Superbeam Facility. The main goal of the activity was to reach consensus on a baseline design for a Neutrino Factory complex, including proton driver parameters, choice of target, front-end design, acceleration system design, and decay ring geometry. Another goal was to explore the commonality, if any, between the proton driver for a Neutrino Factory and those for a Superbeam or Beta Beam facility. In general, the requirements for either of the latter facilities are less stringent than those for a Neutrino Factory. Here, we discuss concepts, parameters, and expected performance of the required subsystems for our chosen baseline design of a Neutrino Factory. We also give an indication of the main R&D tasks - many of which are already under way - that must be carried out to finalize facility design approaches.

Original languageEnglish
Article numberP07001
JournalJournal of Instrumentation
Volume4
Issue number7
DOIs
Publication statusPublished - 2009
Externally publishedYes

Fingerprint

Accelerator
industrial plants
Neutrinos
Particle accelerators
Industrial plants
accelerators
neutrinos
Driver
Baseline
Protons
Facility Design
commonality
protons
systems engineering
System Design
Subsystem
indication
Systems analysis
Concepts
Design

Keywords

  • Accelerator modelling and simulations (multi-particle dynamics
  • Single-particle dynamics)
  • Targets (spallation source targets, radioisotope production, neutrino and muon sources)

ASJC Scopus subject areas

  • Instrumentation
  • Mathematical Physics

Cite this

Apollonio, M., Berg, J. S., Blondel, A., Bogacz, A., Brooks, S., Campagne, J. E., ... Zisman, M. S. (2009). Accelerator design concept for future neutrino facilities. Journal of Instrumentation, 4(7), [P07001]. https://doi.org/10.1088/1748-0221/4/07/P07001

Accelerator design concept for future neutrino facilities. / Apollonio, M.; Berg, J. S.; Blondel, A.; Bogacz, A.; Brooks, S.; Campagne, J. E.; Caspar, D.; Cavata, C.; Chimenti, P.; Cobb, J.; Dracos, M.; Edgecock, R.; Efthymiopoulos, I.; Fabich, A.; Fernow, R.; Filthaut, F.; Gallardo, J.; Garoby, R.; Geer, S.; Gerigk, F.; Hanson, G.; Johnson, R.; Johnstone, C.; Kaplan, D.; Keil, E.; Kirk, H.; Klier, A.; Kurup, A.; Lettry, J.; Long, K.; MacHida, S.; McDonald, K.; Méot, F.; Mori, Y.; Neuffer, D.; Palladino, V.; Palmer, R.; Paul, K.; Poklonskiy, A.; Popovic, M.; Prior, C.; Rees, G.; Rossi, C.; Rovelli, T.; Sandström, R.; Sevior, R.; Sievers, P.; Simos, N.; Torun, Y.; Vretenar, M.; Yoshimura, Koji; Zisman, M. S.

In: Journal of Instrumentation, Vol. 4, No. 7, P07001, 2009.

Research output: Contribution to journalArticle

Apollonio, M, Berg, JS, Blondel, A, Bogacz, A, Brooks, S, Campagne, JE, Caspar, D, Cavata, C, Chimenti, P, Cobb, J, Dracos, M, Edgecock, R, Efthymiopoulos, I, Fabich, A, Fernow, R, Filthaut, F, Gallardo, J, Garoby, R, Geer, S, Gerigk, F, Hanson, G, Johnson, R, Johnstone, C, Kaplan, D, Keil, E, Kirk, H, Klier, A, Kurup, A, Lettry, J, Long, K, MacHida, S, McDonald, K, Méot, F, Mori, Y, Neuffer, D, Palladino, V, Palmer, R, Paul, K, Poklonskiy, A, Popovic, M, Prior, C, Rees, G, Rossi, C, Rovelli, T, Sandström, R, Sevior, R, Sievers, P, Simos, N, Torun, Y, Vretenar, M, Yoshimura, K & Zisman, MS 2009, 'Accelerator design concept for future neutrino facilities', Journal of Instrumentation, vol. 4, no. 7, P07001. https://doi.org/10.1088/1748-0221/4/07/P07001
Apollonio M, Berg JS, Blondel A, Bogacz A, Brooks S, Campagne JE et al. Accelerator design concept for future neutrino facilities. Journal of Instrumentation. 2009;4(7). P07001. https://doi.org/10.1088/1748-0221/4/07/P07001
Apollonio, M. ; Berg, J. S. ; Blondel, A. ; Bogacz, A. ; Brooks, S. ; Campagne, J. E. ; Caspar, D. ; Cavata, C. ; Chimenti, P. ; Cobb, J. ; Dracos, M. ; Edgecock, R. ; Efthymiopoulos, I. ; Fabich, A. ; Fernow, R. ; Filthaut, F. ; Gallardo, J. ; Garoby, R. ; Geer, S. ; Gerigk, F. ; Hanson, G. ; Johnson, R. ; Johnstone, C. ; Kaplan, D. ; Keil, E. ; Kirk, H. ; Klier, A. ; Kurup, A. ; Lettry, J. ; Long, K. ; MacHida, S. ; McDonald, K. ; Méot, F. ; Mori, Y. ; Neuffer, D. ; Palladino, V. ; Palmer, R. ; Paul, K. ; Poklonskiy, A. ; Popovic, M. ; Prior, C. ; Rees, G. ; Rossi, C. ; Rovelli, T. ; Sandström, R. ; Sevior, R. ; Sievers, P. ; Simos, N. ; Torun, Y. ; Vretenar, M. ; Yoshimura, Koji ; Zisman, M. S. / Accelerator design concept for future neutrino facilities. In: Journal of Instrumentation. 2009 ; Vol. 4, No. 7.
@article{8779d440773e4317a229f3596ca3696b,
title = "Accelerator design concept for future neutrino facilities",
abstract = "This document summarizes the work of the Accelerator Working Group (AWG) of the International Scoping Study (ISS) of a Future Neutrino Factory and Superbeam Facility. The main goal of the activity was to reach consensus on a baseline design for a Neutrino Factory complex, including proton driver parameters, choice of target, front-end design, acceleration system design, and decay ring geometry. Another goal was to explore the commonality, if any, between the proton driver for a Neutrino Factory and those for a Superbeam or Beta Beam facility. In general, the requirements for either of the latter facilities are less stringent than those for a Neutrino Factory. Here, we discuss concepts, parameters, and expected performance of the required subsystems for our chosen baseline design of a Neutrino Factory. We also give an indication of the main R&D tasks - many of which are already under way - that must be carried out to finalize facility design approaches.",
keywords = "Accelerator modelling and simulations (multi-particle dynamics, Single-particle dynamics), Targets (spallation source targets, radioisotope production, neutrino and muon sources)",
author = "M. Apollonio and Berg, {J. S.} and A. Blondel and A. Bogacz and S. Brooks and Campagne, {J. E.} and D. Caspar and C. Cavata and P. Chimenti and J. Cobb and M. Dracos and R. Edgecock and I. Efthymiopoulos and A. Fabich and R. Fernow and F. Filthaut and J. Gallardo and R. Garoby and S. Geer and F. Gerigk and G. Hanson and R. Johnson and C. Johnstone and D. Kaplan and E. Keil and H. Kirk and A. Klier and A. Kurup and J. Lettry and K. Long and S. MacHida and K. McDonald and F. M{\'e}ot and Y. Mori and D. Neuffer and V. Palladino and R. Palmer and K. Paul and A. Poklonskiy and M. Popovic and C. Prior and G. Rees and C. Rossi and T. Rovelli and R. Sandstr{\"o}m and R. Sevior and P. Sievers and N. Simos and Y. Torun and M. Vretenar and Koji Yoshimura and Zisman, {M. S.}",
year = "2009",
doi = "10.1088/1748-0221/4/07/P07001",
language = "English",
volume = "4",
journal = "Journal of Instrumentation",
issn = "1748-0221",
publisher = "IOP Publishing Ltd.",
number = "7",

}

TY - JOUR

T1 - Accelerator design concept for future neutrino facilities

AU - Apollonio, M.

AU - Berg, J. S.

AU - Blondel, A.

AU - Bogacz, A.

AU - Brooks, S.

AU - Campagne, J. E.

AU - Caspar, D.

AU - Cavata, C.

AU - Chimenti, P.

AU - Cobb, J.

AU - Dracos, M.

AU - Edgecock, R.

AU - Efthymiopoulos, I.

AU - Fabich, A.

AU - Fernow, R.

AU - Filthaut, F.

AU - Gallardo, J.

AU - Garoby, R.

AU - Geer, S.

AU - Gerigk, F.

AU - Hanson, G.

AU - Johnson, R.

AU - Johnstone, C.

AU - Kaplan, D.

AU - Keil, E.

AU - Kirk, H.

AU - Klier, A.

AU - Kurup, A.

AU - Lettry, J.

AU - Long, K.

AU - MacHida, S.

AU - McDonald, K.

AU - Méot, F.

AU - Mori, Y.

AU - Neuffer, D.

AU - Palladino, V.

AU - Palmer, R.

AU - Paul, K.

AU - Poklonskiy, A.

AU - Popovic, M.

AU - Prior, C.

AU - Rees, G.

AU - Rossi, C.

AU - Rovelli, T.

AU - Sandström, R.

AU - Sevior, R.

AU - Sievers, P.

AU - Simos, N.

AU - Torun, Y.

AU - Vretenar, M.

AU - Yoshimura, Koji

AU - Zisman, M. S.

PY - 2009

Y1 - 2009

N2 - This document summarizes the work of the Accelerator Working Group (AWG) of the International Scoping Study (ISS) of a Future Neutrino Factory and Superbeam Facility. The main goal of the activity was to reach consensus on a baseline design for a Neutrino Factory complex, including proton driver parameters, choice of target, front-end design, acceleration system design, and decay ring geometry. Another goal was to explore the commonality, if any, between the proton driver for a Neutrino Factory and those for a Superbeam or Beta Beam facility. In general, the requirements for either of the latter facilities are less stringent than those for a Neutrino Factory. Here, we discuss concepts, parameters, and expected performance of the required subsystems for our chosen baseline design of a Neutrino Factory. We also give an indication of the main R&D tasks - many of which are already under way - that must be carried out to finalize facility design approaches.

AB - This document summarizes the work of the Accelerator Working Group (AWG) of the International Scoping Study (ISS) of a Future Neutrino Factory and Superbeam Facility. The main goal of the activity was to reach consensus on a baseline design for a Neutrino Factory complex, including proton driver parameters, choice of target, front-end design, acceleration system design, and decay ring geometry. Another goal was to explore the commonality, if any, between the proton driver for a Neutrino Factory and those for a Superbeam or Beta Beam facility. In general, the requirements for either of the latter facilities are less stringent than those for a Neutrino Factory. Here, we discuss concepts, parameters, and expected performance of the required subsystems for our chosen baseline design of a Neutrino Factory. We also give an indication of the main R&D tasks - many of which are already under way - that must be carried out to finalize facility design approaches.

KW - Accelerator modelling and simulations (multi-particle dynamics

KW - Single-particle dynamics)

KW - Targets (spallation source targets, radioisotope production, neutrino and muon sources)

UR - http://www.scopus.com/inward/record.url?scp=71049186394&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=71049186394&partnerID=8YFLogxK

U2 - 10.1088/1748-0221/4/07/P07001

DO - 10.1088/1748-0221/4/07/P07001

M3 - Article

AN - SCOPUS:71049186394

VL - 4

JO - Journal of Instrumentation

JF - Journal of Instrumentation

SN - 1748-0221

IS - 7

M1 - P07001

ER -