Gamma Factory at CERN - novel research tools made of light

We discuss the possibility of creating novel research tools by producing and storing highly relativistic beams of highly ionised atoms in the CERN accelerator complex, and by exciting their atomic degrees of freedom with lasers to produce high-energy photon beams. Intensity of such photon beams woul...

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Detalles Bibliográficos
Autores principales: Placzek, W., Abramov, A., Alden, S.E., Alemany Fernandez, R., Antsiferov, P.S., Apyan, A., Bartosik, H., Bessonov, E.G., Biancacci, N., Bieroń, J., Bogacz, A., Bosco, A., Bruce, R., Budker, D., Cassou, K., Castelli, F., Chaikovska, I., Curatolo, C., Czodrowski, P., Derevianko, A., Dupraz, K., Dutheil, Y., Dzierżęga, K., Fedosseev, V., Fuster Martinez, N., Gibson, S.M., Goddard, B., Gorzawski, A., Hirlander, S., Jowett, J., Kersevan, R., Kowalska, M., Krasny, M.W., Kroeger, F., Lamont, M., Lefevre, T., Manglunki, D., Marsh, B., Martens, A., Molson, J., Nutarelli, D., Nevay, L.J., Petrenko, A., Petrillo, V., Radaelli, S., Pustelny, S., Rochester, S., Sapinski, M., Schaumann, M., Serafini, L., Shevelko, V.P., Stoehlker, T., Surzhikov, A., Tolstikhina, I., Velotti, F., Weber, G., Wu, Y.K., Yin-Vallgren, C., Zanetti, M., Zimmermann, F., Zolotorev, M.S., Zomer, F.
Lenguaje:eng
Publicado: 2019
Materias:
physics.ins-det
Detectors and Experimental Techniques
physics.acc-ph
Accelerators and Storage Rings
Acceso en línea:https://dx.doi.org/10.5506/APhysPolB.50.1191
http://cds.cern.ch/record/2676691
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author Placzek, W.
Abramov, A.
Alden, S.E.
Alemany Fernandez, R.
Antsiferov, P.S.
Apyan, A.
Bartosik, H.
Bessonov, E.G.
Biancacci, N.
Bieroń, J.
Bogacz, A.
Bosco, A.
Bruce, R.
Budker, D.
Cassou, K.
Castelli, F.
Chaikovska, I.
Curatolo, C.
Czodrowski, P.
Derevianko, A.
Dupraz, K.
Dutheil, Y.
Dzierżęga, K.
Fedosseev, V.
Fuster Martinez, N.
Gibson, S.M.
Goddard, B.
Gorzawski, A.
Hirlander, S.
Jowett, J.
Kersevan, R.
Kowalska, M.
Krasny, M.W.
Kroeger, F.
Lamont, M.
Lefevre, T.
Manglunki, D.
Marsh, B.
Martens, A.
Molson, J.
Nutarelli, D.
Nevay, L.J.
Petrenko, A.
Petrillo, V.
Radaelli, S.
Pustelny, S.
Rochester, S.
Sapinski, M.
Schaumann, M.
Serafini, L.
Shevelko, V.P.
Stoehlker, T.
Surzhikov, A.
Tolstikhina, I.
Velotti, F.
Weber, G.
Wu, Y.K.
Yin-Vallgren, C.
Zanetti, M.
Zimmermann, F.
Zolotorev, M.S.
Zomer, F.
author_facet Placzek, W.
Abramov, A.
Alden, S.E.
Alemany Fernandez, R.
Antsiferov, P.S.
Apyan, A.
Bartosik, H.
Bessonov, E.G.
Biancacci, N.
Bieroń, J.
Bogacz, A.
Bosco, A.
Bruce, R.
Budker, D.
Cassou, K.
Castelli, F.
Chaikovska, I.
Curatolo, C.
Czodrowski, P.
Derevianko, A.
Dupraz, K.
Dutheil, Y.
Dzierżęga, K.
Fedosseev, V.
Fuster Martinez, N.
Gibson, S.M.
Goddard, B.
Gorzawski, A.
Hirlander, S.
Jowett, J.
Kersevan, R.
Kowalska, M.
Krasny, M.W.
Kroeger, F.
Lamont, M.
Lefevre, T.
Manglunki, D.
Marsh, B.
Martens, A.
Molson, J.
Nutarelli, D.
Nevay, L.J.
Petrenko, A.
Petrillo, V.
Radaelli, S.
Pustelny, S.
Rochester, S.
Sapinski, M.
Schaumann, M.
Serafini, L.
Shevelko, V.P.
Stoehlker, T.
Surzhikov, A.
Tolstikhina, I.
Velotti, F.
Weber, G.
Wu, Y.K.
Yin-Vallgren, C.
Zanetti, M.
Zimmermann, F.
Zolotorev, M.S.
Zomer, F.
author_sort Placzek, W.
collection CERN
description We discuss the possibility of creating novel research tools by producing and storing highly relativistic beams of highly ionised atoms in the CERN accelerator complex, and by exciting their atomic degrees of freedom with lasers to produce high-energy photon beams. Intensity of such photon beams would be by several orders of magnitude higher than offered by the presently operating light sources, in the particularly interesting γ-ray energy domain of 0.1–400MeV. In this energy range, the high-intensity photon beams can be used to produce secondary beams of polarised electrons, polarised positrons, polarised muons, neutrinos, neutrons and radioactive ions. New research opportunities in a wide domain of fundamental and applied physics can be opened by the Gamma Factory scientific programme based on the above primary and secondary beams.
id cern-2676691
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2019
record_format invenio
spelling cern-26766912022-03-12T08:28:05Zdoi:10.5506/APhysPolB.50.1191http://cds.cern.ch/record/2676691engPlaczek, W.Abramov, A.Alden, S.E.Alemany Fernandez, R.Antsiferov, P.S.Apyan, A.Bartosik, H.Bessonov, E.G.Biancacci, N.Bieroń, J.Bogacz, A.Bosco, A.Bruce, R.Budker, D.Cassou, K.Castelli, F.Chaikovska, I.Curatolo, C.Czodrowski, P.Derevianko, A.Dupraz, K.Dutheil, Y.Dzierżęga, K.Fedosseev, V.Fuster Martinez, N.Gibson, S.M.Goddard, B.Gorzawski, A.Hirlander, S.Jowett, J.Kersevan, R.Kowalska, M.Krasny, M.W.Kroeger, F.Lamont, M.Lefevre, T.Manglunki, D.Marsh, B.Martens, A.Molson, J.Nutarelli, D.Nevay, L.J.Petrenko, A.Petrillo, V.Radaelli, S.Pustelny, S.Rochester, S.Sapinski, M.Schaumann, M.Serafini, L.Shevelko, V.P.Stoehlker, T.Surzhikov, A.Tolstikhina, I.Velotti, F.Weber, G.Wu, Y.K.Yin-Vallgren, C.Zanetti, M.Zimmermann, F.Zolotorev, M.S.Zomer, F.Gamma Factory at CERN - novel research tools made of lightphysics.ins-detDetectors and Experimental Techniquesphysics.acc-phAccelerators and Storage RingsWe discuss the possibility of creating novel research tools by producing and storing highly relativistic beams of highly ionised atoms in the CERN accelerator complex, and by exciting their atomic degrees of freedom with lasers to produce high-energy photon beams. Intensity of such photon beams would be by several orders of magnitude higher than offered by the presently operating light sources, in the particularly interesting γ-ray energy domain of 0.1–400MeV. In this energy range, the high-intensity photon beams can be used to produce secondary beams of polarised electrons, polarised positrons, polarised muons, neutrinos, neutrons and radioactive ions. New research opportunities in a wide domain of fundamental and applied physics can be opened by the Gamma Factory scientific programme based on the above primary and secondary beams.We discuss the possibility of creating novel research tools by producing and storing highly relativistic beams of highly ionised atoms in the CERN accelerator complex, and by exciting their atomic degrees of freedom with lasers to produce high-energy photon beams. Intensity of such photon beams would be by several orders of magnitude higher than offered by the presently operating light sources, in the particularly interesting γ-ray energy domain of 0.1–400MeV. In this energy range, the high-intensity photon beams can be used to produce secondary beams of polarised electrons, polarised positrons, polarised muons, neutrinos, neutrons and radioactive ions. New research opportunities in a wide domain of fundamental and applied physics can be opened by the Gamma Factory scientific programme based on the above primary and secondary beams.We discuss the possibility of creating novel research tools by producing and storing highly relativistic beams of highly ionised atoms in the CERN accelerator complex, and by exciting their atomic degrees of freedom with lasers to produce high-energy photon beams. Intensity of such photon beams would be by several orders of magnitude higher than offered by the presently operating light sources, in the particularly interesting γ-ray energy domain of 0.1–400MeV. In this energy range, the high-intensity photon beams can be used to produce secondary beams of polarised electrons, polarised positrons, polarised muons, neutrinos, neutrons and radioactive ions. New research opportunities in a wide domain of fundamental and applied physics can be opened by the Gamma Factory scientific programme based on the above primary and secondary beams.We discuss the possibility of creating novel research tools by producing and storing highly relativistic beams of highly ionised atoms in the CERN accelerator complex, and by exciting their atomic degrees of freedom with lasers to produce high-energy photon beams. Intensity of such photon beams would be by several orders of magnitude higher than offered by the presently operating light sources, in the particularly interesting γ-ray energy domain of 0.1–400MeV. In this energy range, the high-intensity photon beams can be used to produce secondary beams of polarised electrons, polarised positrons, polarised muons, neutrinos, neutrons and radioactive ions. New research opportunities in a wide domain of fundamental and applied physics can be opened by the Gamma Factory scientific programme based on the above primary and secondary beams.We discuss the possibility of creating novel research tools by producing and storing highly relativistic beams of highly ionised atoms in the CERN accelerator complex, and by exciting their atomic degrees of freedom with lasers to produce high-energy photon beams. Intensity of such photon beams would be by several orders of magnitude higher than offered by the presently operating light sources, in the particularly interesting γ-ray energy domain of 0.1–400MeV. In this energy range, the high-intensity photon beams can be used to produce secondary beams of polarised electrons, polarised positrons, polarised muons, neutrinos, neutrons and radioactive ions. New research opportunities in a wide domain of fundamental and applied physics can be opened by the Gamma Factory scientific programme based on the above primary and secondary beams.We discuss the possibility of creating novel research tools by producing and storing highly relativistic beams of highly ionised atoms in the CERN accelerator complex, and by exciting their atomic degrees of freedom with lasers to produce high-energy photon beams. Intensity of such photon beams would be by several orders of magnitude higher than offered by the presently operating light sources, in the particularly interesting γ-ray energy domain of 0.1–400MeV. In this energy range, the high-intensity photon beams can be used to produce secondary beams of polarised electrons, polarised positrons, polarised muons, neutrinos, neutrons and radioactive ions. New research opportunities in a wide domain of fundamental and applied physics can be opened by the Gamma Factory scientific programme based on the above primary and secondary beams.We discuss the possibility of creating novel research tools by producing and storing highly relativistic beams of highly ionised atoms in the CERN accelerator complex, and by exciting their atomic degrees of freedom with lasers to produce high-energy photon beams. Intensity of such photon beams would be by several orders of magnitude higher than offered by the presently operating light sources, in the particularly interesting γ-ray energy domain of 0.1–400MeV. In this energy range, the high-intensity photon beams can be used to produce secondary beams of polarised electrons, polarised positrons, polarised muons, neutrinos, neutrons and radioactive ions. New research opportunities in a wide domain of fundamental and applied physics can be opened by the Gamma Factory scientific programme based on the above primary and secondary beams.We discuss the possibility of creating novel research tools by producing and storing highly relativistic beams of highly ionised atoms in the CERN accelerator complex, and by exciting their atomic degrees of freedom with lasers to produce high-energy photon beams. Intensity of such photon beams would be by several orders of magnitude higher than offered by the presently operating light sources, in the particularly interesting gamma-ray energy domain of 0.1-400 MeV. In this energy range, the high-intensity photon beams can be used to produce secondary beams of polarised electrons, polarised positrons, polarised muons, neutrinos, neutrons and radioactive ions. New research opportunities in a wide domain of fundamental and applied physics can be opened by the Gamma Factory scientific programme based on the above primary and secondary beams.arXiv:1903.09032CERN-PBC-CONF-2021-015oai:cds.cern.ch:26766912019
spellingShingle physics.ins-det
Detectors and Experimental Techniques
physics.acc-ph
Accelerators and Storage Rings
Placzek, W.
Abramov, A.
Alden, S.E.
Alemany Fernandez, R.
Antsiferov, P.S.
Apyan, A.
Bartosik, H.
Bessonov, E.G.
Biancacci, N.
Bieroń, J.
Bogacz, A.
Bosco, A.
Bruce, R.
Budker, D.
Cassou, K.
Castelli, F.
Chaikovska, I.
Curatolo, C.
Czodrowski, P.
Derevianko, A.
Dupraz, K.
Dutheil, Y.
Dzierżęga, K.
Fedosseev, V.
Fuster Martinez, N.
Gibson, S.M.
Goddard, B.
Gorzawski, A.
Hirlander, S.
Jowett, J.
Kersevan, R.
Kowalska, M.
Krasny, M.W.
Kroeger, F.
Lamont, M.
Lefevre, T.
Manglunki, D.
Marsh, B.
Martens, A.
Molson, J.
Nutarelli, D.
Nevay, L.J.
Petrenko, A.
Petrillo, V.
Radaelli, S.
Pustelny, S.
Rochester, S.
Sapinski, M.
Schaumann, M.
Serafini, L.
Shevelko, V.P.
Stoehlker, T.
Surzhikov, A.
Tolstikhina, I.
Velotti, F.
Weber, G.
Wu, Y.K.
Yin-Vallgren, C.
Zanetti, M.
Zimmermann, F.
Zolotorev, M.S.
Zomer, F.
Gamma Factory at CERN - novel research tools made of light
title Gamma Factory at CERN - novel research tools made of light
title_full Gamma Factory at CERN - novel research tools made of light
title_fullStr Gamma Factory at CERN - novel research tools made of light
title_full_unstemmed Gamma Factory at CERN - novel research tools made of light
title_short Gamma Factory at CERN - novel research tools made of light
title_sort gamma factory at cern - novel research tools made of light
topic physics.ins-det
Detectors and Experimental Techniques
physics.acc-ph
Accelerators and Storage Rings
url https://dx.doi.org/10.5506/APhysPolB.50.1191
http://cds.cern.ch/record/2676691
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