Hybrid H-mode scenario with nitrogen seeding and type III ELMs in JET
The performance of the ‘hybrid’ H-mode regime (long pulse operation with high neutron fluency) has been extensively investigated in JET during the 2005–2007 experimental campaign up to normalized pressure βN = 3, toroidal magnetic field Bt = 1.7 T, with type I ELMs plasma edge conditions. The optimi...
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| creator | Corre, Y Joffrin, E Monier-Garbet, P Andrew, Y Arnoux, G Beurskens, M Brezinsek, S Brix, M Buttery, R Coffey, I Crombé, Kristel De La Luna, E Felton, R Giroud, C Hacquin, S Hobirk, J Huber, A Imbeaux, F Jachmich, S Kempenaars, M Litaudon, X Leggate, H Loarer, T Maddison, G Rachlew, E Rapp, J Sauter, O Savchkov, A Telesca, G Widdowson, A Zastrow, K.-D Zimmermann, O |
| description | The performance of the ‘hybrid’ H-mode regime (long pulse operation with high
neutron fluency) has been extensively investigated in JET during the 2005–2007
experimental campaign up to normalized pressure βN = 3, toroidal magnetic
field Bt = 1.7 T, with type I ELMs plasma edge conditions. The optimized
external current drive sources, self-generated non-inductive bootstrap current
and plasma core stability properties provide a good prospect of achieving a high
fusion gain at reduced plasma current for long durations in ITER. |
| format | Article |
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neutron fluency) has been extensively investigated in JET during the 2005–2007
experimental campaign up to normalized pressure βN = 3, toroidal magnetic
field Bt = 1.7 T, with type I ELMs plasma edge conditions. The optimized
external current drive sources, self-generated non-inductive bootstrap current
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neutron fluency) has been extensively investigated in JET during the 2005–2007
experimental campaign up to normalized pressure βN = 3, toroidal magnetic
field Bt = 1.7 T, with type I ELMs plasma edge conditions. The optimized
external current drive sources, self-generated non-inductive bootstrap current
and plasma core stability properties provide a good prospect of achieving a high
fusion gain at reduced plasma current for long durations in ITER.</description><subject>ELMs</subject><subject>nitrogen seeding</subject><subject>Nuclear Fusion</subject><subject>Physics and Astronomy</subject><issn>0741-3335</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><sourceid>ADGLB</sourceid><recordid>eNqdy0sKwjAUQNEMFKyfPbwNFBLjp3OptKKzzkPaPNMnNZEkKt29CK7A0R0c7oRlfL8RuZRyO2PzGG-cC1Gsdxkrq7ENZKDK794gxA6dDuThTakHRyl4iw4ioiFnQTsDaXwg1HUN5fkSgRycymbJplc9RFz9umDiWDaHKrc9uqQGagN2OimvSenQ9fRC9bRfalEVgsuikP88H6j7ROY</recordid><startdate>2008</startdate><enddate>2008</enddate><creator>Corre, Y</creator><creator>Joffrin, E</creator><creator>Monier-Garbet, P</creator><creator>Andrew, Y</creator><creator>Arnoux, G</creator><creator>Beurskens, M</creator><creator>Brezinsek, S</creator><creator>Brix, M</creator><creator>Buttery, R</creator><creator>Coffey, I</creator><creator>Crombé, Kristel</creator><creator>De La Luna, E</creator><creator>Felton, R</creator><creator>Giroud, C</creator><creator>Hacquin, S</creator><creator>Hobirk, J</creator><creator>Huber, A</creator><creator>Imbeaux, F</creator><creator>Jachmich, S</creator><creator>Kempenaars, M</creator><creator>Litaudon, X</creator><creator>Leggate, H</creator><creator>Loarer, T</creator><creator>Maddison, G</creator><creator>Rachlew, E</creator><creator>Rapp, J</creator><creator>Sauter, O</creator><creator>Savchkov, A</creator><creator>Telesca, G</creator><creator>Widdowson, A</creator><creator>Zastrow, K.-D</creator><creator>Zimmermann, O</creator><scope>ADGLB</scope></search><sort><creationdate>2008</creationdate><title>Hybrid H-mode scenario with nitrogen seeding and type III ELMs in JET</title><author>Corre, Y ; 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neutron fluency) has been extensively investigated in JET during the 2005–2007
experimental campaign up to normalized pressure βN = 3, toroidal magnetic
field Bt = 1.7 T, with type I ELMs plasma edge conditions. The optimized
external current drive sources, self-generated non-inductive bootstrap current
and plasma core stability properties provide a good prospect of achieving a high
fusion gain at reduced plasma current for long durations in ITER.</abstract><oa>free_for_read</oa></addata></record> |
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| source | Ghent University Academic Bibliography; IOP Publishing Journals; Institute of Physics (IOP) Journals - HEAL-Link |
| subjects | ELMs nitrogen seeding Nuclear Fusion Physics and Astronomy |
| title | Hybrid H-mode scenario with nitrogen seeding and type III ELMs in JET |
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