Beam and experiments: Summary

A. Blondel; A. Bueno; M. Campanelli; A. Cervera; D. B. Cline; J. Collot; M. de Jong; A. Donini; F. Dydak; R. Edgecock; M. B. Gavela; J. J. Gómez-Cadenas; M. C. Gonzalez-Garcia; P. Gruber; D. A. Harris; P. Hernández; Y. Kuno; P. J. Litchfield; K. McFarland; O. Mena; P. Migliozzi; V. Palladino; J. Panman; I. M. Papadopoulos; A. Para; C. Peña-Garay; P. Perez; S. Rigolin; A. Romanino; A. Rubbia; P. Strolin; S. Wojcicki

doi:10.1016/S0168-9002(00)00554-4

Beam and experiments: Summary

A. Blondel, A. Bueno, M. Campanelli, A. Cervera, D. B. Cline, J. Collot, M. de Jong, A. Donini, F. Dydak, R. Edgecock, M. B. Gavela, J. J. Gómez-Cadenas, M. C. Gonzalez-Garcia, P. Gruber, D. A. Harris, P. Hernández, Y. Kuno, P. J. Litchfield, K. McFarland, O. MenaP. Migliozzi, V. Palladino, J. Panman, I. M. Papadopoulos, A. Para, C. Peña-Garay, P. Perez, S. Rigolin, A. Romanino, A. Rubbia, P. Strolin, S. Wojcicki

Research output: Contribution to journal › Article › peer-review

56 Citations (Scopus)

Abstract

The discovery of neutrino oscillations marks a major milestone in the history of neutrino physics, and opens a new window to the still mysterious origin of masses and flavour mixing. Many current and forthcoming experiments will answer open questions; however, a major step forward, up to and possibly including CP violation in the neutrino-mixing matrix, requires the neutrino beams from a neutrino factory. The neutrino factory is a new concept for producing neutrino beams of unprecedented quality in terms of intensity, flavour composition, and precision of the beam parameters. Most importantly, the neutrino factory is the only known way to generate a high-intensity beam of electron neutrinos of high energy. The neutrino beam from a neutrino factory, in particular the electron-neutrino beam, enables the exploration of otherwise inaccessible domains in neutrino oscillation physics by exploiting baselines of planetary dimensions. Suitable detectors pose formidable challenges but seem within reach with only moderate extrapolations from existing technologies. Although the main physics attraction of the neutrino factory is in the area of neutrino oscillations, an interesting spectrum of further opportunities ranging from high-precision, high-rate neutrino scattering to physics with high-intensity stopped muons comes with it.

Original language	English
Pages (from-to)	102-122
Number of pages	21
Journal	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume	451
Issue number	1
Early online date	21 Aug 2000
DOIs	https://doi.org/10.1016/S0168-9002(00)00554-4
Publication status	Published - 21 Aug 2000
Externally published	Yes

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Blondel, A., Bueno, A., Campanelli, M., Cervera, A., Cline, D. B., Collot, J., de Jong, M., Donini, A., Dydak, F., Edgecock, R., Gavela, M. B., Gómez-Cadenas, J. J., Gonzalez-Garcia, M. C., Gruber, P., Harris, D. A., Hernández, P., Kuno, Y., Litchfield, P. J., McFarland, K., ... Wojcicki, S. (2000). Beam and experiments: Summary. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 451(1), 102-122. https://doi.org/10.1016/S0168-9002(00)00554-4

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abstract = "The discovery of neutrino oscillations marks a major milestone in the history of neutrino physics, and opens a new window to the still mysterious origin of masses and flavour mixing. Many current and forthcoming experiments will answer open questions; however, a major step forward, up to and possibly including CP violation in the neutrino-mixing matrix, requires the neutrino beams from a neutrino factory. The neutrino factory is a new concept for producing neutrino beams of unprecedented quality in terms of intensity, flavour composition, and precision of the beam parameters. Most importantly, the neutrino factory is the only known way to generate a high-intensity beam of electron neutrinos of high energy. The neutrino beam from a neutrino factory, in particular the electron-neutrino beam, enables the exploration of otherwise inaccessible domains in neutrino oscillation physics by exploiting baselines of planetary dimensions. Suitable detectors pose formidable challenges but seem within reach with only moderate extrapolations from existing technologies. Although the main physics attraction of the neutrino factory is in the area of neutrino oscillations, an interesting spectrum of further opportunities ranging from high-precision, high-rate neutrino scattering to physics with high-intensity stopped muons comes with it.",

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author = "A. Blondel and A. Bueno and M. Campanelli and A. Cervera and Cline, {D. B.} and J. Collot and {de Jong}, M. and A. Donini and F. Dydak and R. Edgecock and Gavela, {M. B.} and G{\'o}mez-Cadenas, {J. J.} and Gonzalez-Garcia, {M. C.} and P. Gruber and Harris, {D. A.} and P. Hern{\'a}ndez and Y. Kuno and Litchfield, {P. J.} and K. McFarland and O. Mena and P. Migliozzi and V. Palladino and J. Panman and Papadopoulos, {I. M.} and A. Para and C. Pe{\~n}a-Garay and P. Perez and S. Rigolin and A. Romanino and A. Rubbia and P. Strolin and S. Wojcicki",

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Blondel, A, Bueno, A, Campanelli, M, Cervera, A, Cline, DB, Collot, J, de Jong, M, Donini, A, Dydak, F, Edgecock, R, Gavela, MB, Gómez-Cadenas, JJ, Gonzalez-Garcia, MC, Gruber, P, Harris, DA, Hernández, P, Kuno, Y, Litchfield, PJ, McFarland, K, Mena, O, Migliozzi, P, Palladino, V, Panman, J, Papadopoulos, IM, Para, A, Peña-Garay, C, Perez, P, Rigolin, S, Romanino, A, Rubbia, A, Strolin, P & Wojcicki, S 2000, 'Beam and experiments: Summary', Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 451, no. 1, pp. 102-122. https://doi.org/10.1016/S0168-9002(00)00554-4

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T1 - Beam and experiments

T2 - Summary

AU - Blondel, A.

AU - Bueno, A.

AU - Campanelli, M.

AU - Cervera, A.

AU - Cline, D. B.

AU - Collot, J.

AU - de Jong, M.

AU - Donini, A.

AU - Dydak, F.

AU - Edgecock, R.

AU - Gavela, M. B.

AU - Gómez-Cadenas, J. J.

AU - Gonzalez-Garcia, M. C.

AU - Gruber, P.

AU - Harris, D. A.

AU - Hernández, P.

AU - Kuno, Y.

AU - Litchfield, P. J.

AU - McFarland, K.

AU - Mena, O.

AU - Migliozzi, P.

AU - Palladino, V.

AU - Panman, J.

AU - Papadopoulos, I. M.

AU - Para, A.

AU - Peña-Garay, C.

AU - Perez, P.

AU - Rigolin, S.

AU - Romanino, A.

AU - Rubbia, A.

AU - Strolin, P.

AU - Wojcicki, S.

PY - 2000/8/21

Y1 - 2000/8/21

N2 - The discovery of neutrino oscillations marks a major milestone in the history of neutrino physics, and opens a new window to the still mysterious origin of masses and flavour mixing. Many current and forthcoming experiments will answer open questions; however, a major step forward, up to and possibly including CP violation in the neutrino-mixing matrix, requires the neutrino beams from a neutrino factory. The neutrino factory is a new concept for producing neutrino beams of unprecedented quality in terms of intensity, flavour composition, and precision of the beam parameters. Most importantly, the neutrino factory is the only known way to generate a high-intensity beam of electron neutrinos of high energy. The neutrino beam from a neutrino factory, in particular the electron-neutrino beam, enables the exploration of otherwise inaccessible domains in neutrino oscillation physics by exploiting baselines of planetary dimensions. Suitable detectors pose formidable challenges but seem within reach with only moderate extrapolations from existing technologies. Although the main physics attraction of the neutrino factory is in the area of neutrino oscillations, an interesting spectrum of further opportunities ranging from high-precision, high-rate neutrino scattering to physics with high-intensity stopped muons comes with it.

AB - The discovery of neutrino oscillations marks a major milestone in the history of neutrino physics, and opens a new window to the still mysterious origin of masses and flavour mixing. Many current and forthcoming experiments will answer open questions; however, a major step forward, up to and possibly including CP violation in the neutrino-mixing matrix, requires the neutrino beams from a neutrino factory. The neutrino factory is a new concept for producing neutrino beams of unprecedented quality in terms of intensity, flavour composition, and precision of the beam parameters. Most importantly, the neutrino factory is the only known way to generate a high-intensity beam of electron neutrinos of high energy. The neutrino beam from a neutrino factory, in particular the electron-neutrino beam, enables the exploration of otherwise inaccessible domains in neutrino oscillation physics by exploiting baselines of planetary dimensions. Suitable detectors pose formidable challenges but seem within reach with only moderate extrapolations from existing technologies. Although the main physics attraction of the neutrino factory is in the area of neutrino oscillations, an interesting spectrum of further opportunities ranging from high-precision, high-rate neutrino scattering to physics with high-intensity stopped muons comes with it.

KW - NUFACT99

KW - Neutrino

KW - Oscillations

KW - Lyon

KW - Beaujolais

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U2 - 10.1016/S0168-9002(00)00554-4

DO - 10.1016/S0168-9002(00)00554-4

M3 - Article

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VL - 451

SP - 102

EP - 122

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

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

SN - 0168-9002

IS - 1

ER -

Beam and experiments: Summary

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