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Magnetically-guided fast electrons in cylindrically-compressed matter

Authors :
Pérez, F
Debayle, A
Honrubia, J
Koenig, M
Batani, D
Baton, S
Beg, F
Benedetti, C
Brambrink, E
Chawla, S
Dorchies, F
Fourment, C
Galimberti, M
Gizzi, L
Gremillet, L
Heathcote, R
Higginson, D
Hulin, S
Jafer, R
Koester, P
Labate, L
Lancaster, K
Mackinnon, A
Macphee, A
Nazarov, W
Nicolai, P
Pasley, J
Ramis, R
Richetta, M
Santos, J
Sgattoni, A
Spindloe, C
Vauzour, B
Volpe, L
Baton, SD
Beg, FN
Brambrink,E
Gizzi, LA
Higginson,DP
Lancaster, KL
MacKinnon, AJ
MacPhee, AG
Santos, JJ
BATANI, DINO DIMITRI
JAFER, RASHIDA
VOLPE, LUCA
Pérez, F
Debayle, A
Honrubia, J
Koenig, M
Batani, D
Baton, S
Beg, F
Benedetti, C
Brambrink, E
Chawla, S
Dorchies, F
Fourment, C
Galimberti, M
Gizzi, L
Gremillet, L
Heathcote, R
Higginson, D
Hulin, S
Jafer, R
Koester, P
Labate, L
Lancaster, K
Mackinnon, A
Macphee, A
Nazarov, W
Nicolai, P
Pasley, J
Ramis, R
Richetta, M
Santos, J
Sgattoni, A
Spindloe, C
Vauzour, B
Volpe, L
Baton, SD
Beg, FN
Brambrink,E
Gizzi, LA
Higginson,DP
Lancaster, KL
MacKinnon, AJ
MacPhee, AG
Santos, JJ
BATANI, DINO DIMITRI
JAFER, RASHIDA
VOLPE, LUCA
Publication Year :
2011

Abstract

Fast electrons produced by a 10 ps, 160 J laser pulse through laser-compressed plastic cylinders are studied experimentally and numerically in the context of fast ignition. K(alpha)-emission images reveal a collimated or scattered electron beam depending on the initial density and the compression timing. A numerical transport model shows that implosion-driven electrical resistivity gradients induce strong magnetic fields able to guide the electrons. The good agreement with measured beam sizes provides the first experimental evidence for fast-electron magnetic collimation in laser-compressed matter

Details

Database :
OAIster
Notes :
STAMPA, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1308904739
Document Type :
Electronic Resource

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