Progress in neutron diagnostics at JET

J. Mlynář; G. Bonheure; A. Murari; L. Bertalot; M. Angelone; M. Pillon; S. Conroy; G. Ericsson; J. Källne; S. Popovichev

doi:10.1007/s10582-006-0187-2

Progress in neutron diagnostics at JET

J. Mlynář
, G. Bonheure
, A. Murari
, L. Bertalot
, M. Angelone
, M. Pillon
, S. Conroy
, G. Ericsson
, J. Källne
, S. Popovichev

Laboratory for Plasma Physics

Institute of Plasma Physics, Academy of Sciences of the Czech Republic
Consorzio Rfx
Associazione EURATOM-ENEA sulla Fusione
Uppsala Universitet
EURATOM-UKAEA Association Culham Science Centre

Onderzoeksoutput: Bijdrage aan een tijdschrift › Artikel › peer review

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In the ITER tokamak, diagnosing the plasma neutron emission will be essential to characterise fusion burning process and determine the performance of the machine. JET, currently the world largest tokamak, is the most suitable test bed for development of the fusion-relevant neutron diagnostics due to its plasma parameters and unique tritium operation capability. Current works aim at improving the spatial and spectral characteristics of the neutron measurements at JET, as well as on technological tasks. The present enhancements of neutron diagnostics and data analyses at JET make-together with new fast particle measuring techniques and tritium retention studies-part of the "burning plasma" diagnostic developments towards reactor-grade fusion facilities.

Originele taal-2	Engels
Pagina's (van-tot)	B118-B124
Tijdschrift	Czechoslovak Journal of Physics
Volume	56
Nummer van het tijdschrift	SUPPL. 2
DOI's	https://doi.org/10.1007/s10582-006-0187-2
Status	Gepubliceerd - okt. 2006

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title = "Progress in neutron diagnostics at JET",

abstract = "In the ITER tokamak, diagnosing the plasma neutron emission will be essential to characterise fusion burning process and determine the performance of the machine. JET, currently the world largest tokamak, is the most suitable test bed for development of the fusion-relevant neutron diagnostics due to its plasma parameters and unique tritium operation capability. Current works aim at improving the spatial and spectral characteristics of the neutron measurements at JET, as well as on technological tasks. The present enhancements of neutron diagnostics and data analyses at JET make-together with new fast particle measuring techniques and tritium retention studies-part of the {"}burning plasma{"} diagnostic developments towards reactor-grade fusion facilities.",

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author = "J. Mlyn{\'a}{\v r} and G. Bonheure and A. Murari and L. Bertalot and M. Angelone and M. Pillon and S. Conroy and G. Ericsson and J. K{\"a}llne and S. Popovichev",

year = "2006",

month = oct,

doi = "10.1007/s10582-006-0187-2",

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T1 - Progress in neutron diagnostics at JET

AU - Mlynář, J.

AU - Bonheure, G.

AU - Murari, A.

AU - Bertalot, L.

AU - Angelone, M.

AU - Pillon, M.

AU - Conroy, S.

AU - Ericsson, G.

AU - Källne, J.

AU - Popovichev, S.

PY - 2006/10

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N2 - In the ITER tokamak, diagnosing the plasma neutron emission will be essential to characterise fusion burning process and determine the performance of the machine. JET, currently the world largest tokamak, is the most suitable test bed for development of the fusion-relevant neutron diagnostics due to its plasma parameters and unique tritium operation capability. Current works aim at improving the spatial and spectral characteristics of the neutron measurements at JET, as well as on technological tasks. The present enhancements of neutron diagnostics and data analyses at JET make-together with new fast particle measuring techniques and tritium retention studies-part of the "burning plasma" diagnostic developments towards reactor-grade fusion facilities.

AB - In the ITER tokamak, diagnosing the plasma neutron emission will be essential to characterise fusion burning process and determine the performance of the machine. JET, currently the world largest tokamak, is the most suitable test bed for development of the fusion-relevant neutron diagnostics due to its plasma parameters and unique tritium operation capability. Current works aim at improving the spatial and spectral characteristics of the neutron measurements at JET, as well as on technological tasks. The present enhancements of neutron diagnostics and data analyses at JET make-together with new fast particle measuring techniques and tritium retention studies-part of the "burning plasma" diagnostic developments towards reactor-grade fusion facilities.

KW - Diagnostics

KW - Fusion

KW - JET

KW - Neutrons

KW - Tokamak

UR - https://www.scopus.com/pages/publications/33750710771

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DO - 10.1007/s10582-006-0187-2

M3 - Article

AN - SCOPUS:33750710771

SN - 0011-4626

VL - 56

SP - B118-B124

JO - Czechoslovak Journal of Physics

JF - Czechoslovak Journal of Physics

IS - SUPPL. 2

ER -

Progress in neutron diagnostics at JET

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