Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments

We describe magnetic reconnection experiments using a new, pulsed-power driven experimental platform in which the inflows are super-sonic but sub-Alfvénic. The intrinsically magnetised plasma flows are long lasting, producing a well-defined reconnection layer that persists over many hydrodynamic tim...
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Autor*in:	Hare, J. D [verfasserIn] Lebedev, S. V Suttle, L. G Loureiro, N. F Ciardi, A Burdiak, G. C Chittenden, J. P Clayson, T Eardley, S. J Garcia, C Halliday, J. W. D Niasse, N Robinson, T Smith, R. A Stuart, N Suzuki-Vidal, F Swadling, G. F Ma, J Wu, J

Format:	Artikel
Sprache:	Englisch

Erschienen:	2017

Rechteinformationen:	Nutzungsrecht: © Author(s)

Schlagwörter:	Physics Plasma Physics

Übergeordnetes Werk:	Enthalten in: Physics of plasmas - Melville, NY : AIP, 1994, 24(2017), 10
Übergeordnetes Werk:	volume:24 ; year:2017 ; number:10

Links:	Volltext Link aufrufen Link aufrufen

DOI / URN:	10.1063/1.4986012

Katalog-ID:	OLC1998083888

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520			\|a We describe magnetic reconnection experiments using a new, pulsed-power driven experimental platform in which the inflows are super-sonic but sub-Alfvénic. The intrinsically magnetised plasma flows are long lasting, producing a well-defined reconnection layer that persists over many hydrodynamic time scales. The layer is diagnosed using a suite of high resolution laser based diagnostics, which provide measurements of the electron density, reconnecting magnetic field, inflow and outflow velocities, and the electron and ion temperatures. Using these measurements, we observe a balance between the power flow into and out of the layer, and we find that the heating rates for the electrons and ions are significantly in excess of the classical predictions. The formation of plasmoids is observed in laser interferometry and optical self-emission, and the magnetic O-point structure of these plasmoids is confirmed using magnetic probes.
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700	1		\|a Robinson, T \|4 oth
700	1		\|a Smith, R. A \|4 oth
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allfields	10.1063/1.4986012 doi PQ20171228 (DE-627)OLC1998083888 (DE-599)GBVOLC1998083888 (PRQ)a1092-33f947beb6752f1e3e7cd4f3bc9fa66a250fa8a199b959ecc0c9d8f0b21778dc0 (KEY)0178548620170000024001000000formationandstructureofacurrentsheetinpulsedpowerd DE-627 ger DE-627 rakwb eng 530 DE-600 Hare, J. D verfasserin aut Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments 2017 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier We describe magnetic reconnection experiments using a new, pulsed-power driven experimental platform in which the inflows are super-sonic but sub-Alfvénic. The intrinsically magnetised plasma flows are long lasting, producing a well-defined reconnection layer that persists over many hydrodynamic time scales. The layer is diagnosed using a suite of high resolution laser based diagnostics, which provide measurements of the electron density, reconnecting magnetic field, inflow and outflow velocities, and the electron and ion temperatures. Using these measurements, we observe a balance between the power flow into and out of the layer, and we find that the heating rates for the electrons and ions are significantly in excess of the classical predictions. The formation of plasmoids is observed in laser interferometry and optical self-emission, and the magnetic O-point structure of these plasmoids is confirmed using magnetic probes. Nutzungsrecht: © Author(s) Physics Plasma Physics Lebedev, S. V oth Suttle, L. G oth Loureiro, N. F oth Ciardi, A oth Burdiak, G. C oth Chittenden, J. P oth Clayson, T oth Eardley, S. J oth Garcia, C oth Halliday, J. W. D oth Niasse, N oth Robinson, T oth Smith, R. A oth Stuart, N oth Suzuki-Vidal, F oth Swadling, G. F oth Ma, J oth Wu, J oth Enthalten in Physics of plasmas Melville, NY : AIP, 1994 24(2017), 10 (DE-627)171342119 (DE-600)1179425-2 (DE-576)038876949 1070-664X nnns volume:24 year:2017 number:10 http://dx.doi.org/10.1063/1.4986012 Volltext http://dx.doi.org/10.1063/1.4986012 http://arxiv.org/abs/1705.10594 GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-PHY SSG-OPC-AST SSG-OPC-GEO SSG-OPC-GGO GBV_ILN_47 GBV_ILN_70 AR 24 2017 10
spelling	10.1063/1.4986012 doi PQ20171228 (DE-627)OLC1998083888 (DE-599)GBVOLC1998083888 (PRQ)a1092-33f947beb6752f1e3e7cd4f3bc9fa66a250fa8a199b959ecc0c9d8f0b21778dc0 (KEY)0178548620170000024001000000formationandstructureofacurrentsheetinpulsedpowerd DE-627 ger DE-627 rakwb eng 530 DE-600 Hare, J. D verfasserin aut Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments 2017 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier We describe magnetic reconnection experiments using a new, pulsed-power driven experimental platform in which the inflows are super-sonic but sub-Alfvénic. The intrinsically magnetised plasma flows are long lasting, producing a well-defined reconnection layer that persists over many hydrodynamic time scales. The layer is diagnosed using a suite of high resolution laser based diagnostics, which provide measurements of the electron density, reconnecting magnetic field, inflow and outflow velocities, and the electron and ion temperatures. Using these measurements, we observe a balance between the power flow into and out of the layer, and we find that the heating rates for the electrons and ions are significantly in excess of the classical predictions. The formation of plasmoids is observed in laser interferometry and optical self-emission, and the magnetic O-point structure of these plasmoids is confirmed using magnetic probes. Nutzungsrecht: © Author(s) Physics Plasma Physics Lebedev, S. V oth Suttle, L. G oth Loureiro, N. F oth Ciardi, A oth Burdiak, G. C oth Chittenden, J. P oth Clayson, T oth Eardley, S. J oth Garcia, C oth Halliday, J. W. D oth Niasse, N oth Robinson, T oth Smith, R. A oth Stuart, N oth Suzuki-Vidal, F oth Swadling, G. F oth Ma, J oth Wu, J oth Enthalten in Physics of plasmas Melville, NY : AIP, 1994 24(2017), 10 (DE-627)171342119 (DE-600)1179425-2 (DE-576)038876949 1070-664X nnns volume:24 year:2017 number:10 http://dx.doi.org/10.1063/1.4986012 Volltext http://dx.doi.org/10.1063/1.4986012 http://arxiv.org/abs/1705.10594 GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-PHY SSG-OPC-AST SSG-OPC-GEO SSG-OPC-GGO GBV_ILN_47 GBV_ILN_70 AR 24 2017 10
allfields_unstemmed	10.1063/1.4986012 doi PQ20171228 (DE-627)OLC1998083888 (DE-599)GBVOLC1998083888 (PRQ)a1092-33f947beb6752f1e3e7cd4f3bc9fa66a250fa8a199b959ecc0c9d8f0b21778dc0 (KEY)0178548620170000024001000000formationandstructureofacurrentsheetinpulsedpowerd DE-627 ger DE-627 rakwb eng 530 DE-600 Hare, J. D verfasserin aut Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments 2017 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier We describe magnetic reconnection experiments using a new, pulsed-power driven experimental platform in which the inflows are super-sonic but sub-Alfvénic. The intrinsically magnetised plasma flows are long lasting, producing a well-defined reconnection layer that persists over many hydrodynamic time scales. The layer is diagnosed using a suite of high resolution laser based diagnostics, which provide measurements of the electron density, reconnecting magnetic field, inflow and outflow velocities, and the electron and ion temperatures. Using these measurements, we observe a balance between the power flow into and out of the layer, and we find that the heating rates for the electrons and ions are significantly in excess of the classical predictions. The formation of plasmoids is observed in laser interferometry and optical self-emission, and the magnetic O-point structure of these plasmoids is confirmed using magnetic probes. Nutzungsrecht: © Author(s) Physics Plasma Physics Lebedev, S. V oth Suttle, L. G oth Loureiro, N. F oth Ciardi, A oth Burdiak, G. C oth Chittenden, J. P oth Clayson, T oth Eardley, S. J oth Garcia, C oth Halliday, J. W. D oth Niasse, N oth Robinson, T oth Smith, R. A oth Stuart, N oth Suzuki-Vidal, F oth Swadling, G. F oth Ma, J oth Wu, J oth Enthalten in Physics of plasmas Melville, NY : AIP, 1994 24(2017), 10 (DE-627)171342119 (DE-600)1179425-2 (DE-576)038876949 1070-664X nnns volume:24 year:2017 number:10 http://dx.doi.org/10.1063/1.4986012 Volltext http://dx.doi.org/10.1063/1.4986012 http://arxiv.org/abs/1705.10594 GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-PHY SSG-OPC-AST SSG-OPC-GEO SSG-OPC-GGO GBV_ILN_47 GBV_ILN_70 AR 24 2017 10
allfieldsGer	10.1063/1.4986012 doi PQ20171228 (DE-627)OLC1998083888 (DE-599)GBVOLC1998083888 (PRQ)a1092-33f947beb6752f1e3e7cd4f3bc9fa66a250fa8a199b959ecc0c9d8f0b21778dc0 (KEY)0178548620170000024001000000formationandstructureofacurrentsheetinpulsedpowerd DE-627 ger DE-627 rakwb eng 530 DE-600 Hare, J. D verfasserin aut Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments 2017 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier We describe magnetic reconnection experiments using a new, pulsed-power driven experimental platform in which the inflows are super-sonic but sub-Alfvénic. The intrinsically magnetised plasma flows are long lasting, producing a well-defined reconnection layer that persists over many hydrodynamic time scales. The layer is diagnosed using a suite of high resolution laser based diagnostics, which provide measurements of the electron density, reconnecting magnetic field, inflow and outflow velocities, and the electron and ion temperatures. Using these measurements, we observe a balance between the power flow into and out of the layer, and we find that the heating rates for the electrons and ions are significantly in excess of the classical predictions. The formation of plasmoids is observed in laser interferometry and optical self-emission, and the magnetic O-point structure of these plasmoids is confirmed using magnetic probes. Nutzungsrecht: © Author(s) Physics Plasma Physics Lebedev, S. V oth Suttle, L. G oth Loureiro, N. F oth Ciardi, A oth Burdiak, G. C oth Chittenden, J. P oth Clayson, T oth Eardley, S. J oth Garcia, C oth Halliday, J. W. D oth Niasse, N oth Robinson, T oth Smith, R. A oth Stuart, N oth Suzuki-Vidal, F oth Swadling, G. F oth Ma, J oth Wu, J oth Enthalten in Physics of plasmas Melville, NY : AIP, 1994 24(2017), 10 (DE-627)171342119 (DE-600)1179425-2 (DE-576)038876949 1070-664X nnns volume:24 year:2017 number:10 http://dx.doi.org/10.1063/1.4986012 Volltext http://dx.doi.org/10.1063/1.4986012 http://arxiv.org/abs/1705.10594 GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-PHY SSG-OPC-AST SSG-OPC-GEO SSG-OPC-GGO GBV_ILN_47 GBV_ILN_70 AR 24 2017 10
allfieldsSound	10.1063/1.4986012 doi PQ20171228 (DE-627)OLC1998083888 (DE-599)GBVOLC1998083888 (PRQ)a1092-33f947beb6752f1e3e7cd4f3bc9fa66a250fa8a199b959ecc0c9d8f0b21778dc0 (KEY)0178548620170000024001000000formationandstructureofacurrentsheetinpulsedpowerd DE-627 ger DE-627 rakwb eng 530 DE-600 Hare, J. D verfasserin aut Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments 2017 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier We describe magnetic reconnection experiments using a new, pulsed-power driven experimental platform in which the inflows are super-sonic but sub-Alfvénic. The intrinsically magnetised plasma flows are long lasting, producing a well-defined reconnection layer that persists over many hydrodynamic time scales. The layer is diagnosed using a suite of high resolution laser based diagnostics, which provide measurements of the electron density, reconnecting magnetic field, inflow and outflow velocities, and the electron and ion temperatures. Using these measurements, we observe a balance between the power flow into and out of the layer, and we find that the heating rates for the electrons and ions are significantly in excess of the classical predictions. The formation of plasmoids is observed in laser interferometry and optical self-emission, and the magnetic O-point structure of these plasmoids is confirmed using magnetic probes. Nutzungsrecht: © Author(s) Physics Plasma Physics Lebedev, S. V oth Suttle, L. G oth Loureiro, N. F oth Ciardi, A oth Burdiak, G. C oth Chittenden, J. P oth Clayson, T oth Eardley, S. J oth Garcia, C oth Halliday, J. W. D oth Niasse, N oth Robinson, T oth Smith, R. A oth Stuart, N oth Suzuki-Vidal, F oth Swadling, G. F oth Ma, J oth Wu, J oth Enthalten in Physics of plasmas Melville, NY : AIP, 1994 24(2017), 10 (DE-627)171342119 (DE-600)1179425-2 (DE-576)038876949 1070-664X nnns volume:24 year:2017 number:10 http://dx.doi.org/10.1063/1.4986012 Volltext http://dx.doi.org/10.1063/1.4986012 http://arxiv.org/abs/1705.10594 GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-PHY SSG-OPC-AST SSG-OPC-GEO SSG-OPC-GGO GBV_ILN_47 GBV_ILN_70 AR 24 2017 10
language	English
source	Enthalten in Physics of plasmas 24(2017), 10 volume:24 year:2017 number:10
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author	Hare, J. D
spellingShingle	Hare, J. D ddc 530 misc Physics misc Plasma Physics Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments
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topic_title	530 DE-600 Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments Physics Plasma Physics
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title	Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments
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title_full	Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments
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title_sort	formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments
title_auth	Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments
abstract	We describe magnetic reconnection experiments using a new, pulsed-power driven experimental platform in which the inflows are super-sonic but sub-Alfvénic. The intrinsically magnetised plasma flows are long lasting, producing a well-defined reconnection layer that persists over many hydrodynamic time scales. The layer is diagnosed using a suite of high resolution laser based diagnostics, which provide measurements of the electron density, reconnecting magnetic field, inflow and outflow velocities, and the electron and ion temperatures. Using these measurements, we observe a balance between the power flow into and out of the layer, and we find that the heating rates for the electrons and ions are significantly in excess of the classical predictions. The formation of plasmoids is observed in laser interferometry and optical self-emission, and the magnetic O-point structure of these plasmoids is confirmed using magnetic probes.
abstractGer	We describe magnetic reconnection experiments using a new, pulsed-power driven experimental platform in which the inflows are super-sonic but sub-Alfvénic. The intrinsically magnetised plasma flows are long lasting, producing a well-defined reconnection layer that persists over many hydrodynamic time scales. The layer is diagnosed using a suite of high resolution laser based diagnostics, which provide measurements of the electron density, reconnecting magnetic field, inflow and outflow velocities, and the electron and ion temperatures. Using these measurements, we observe a balance between the power flow into and out of the layer, and we find that the heating rates for the electrons and ions are significantly in excess of the classical predictions. The formation of plasmoids is observed in laser interferometry and optical self-emission, and the magnetic O-point structure of these plasmoids is confirmed using magnetic probes.
abstract_unstemmed	We describe magnetic reconnection experiments using a new, pulsed-power driven experimental platform in which the inflows are super-sonic but sub-Alfvénic. The intrinsically magnetised plasma flows are long lasting, producing a well-defined reconnection layer that persists over many hydrodynamic time scales. The layer is diagnosed using a suite of high resolution laser based diagnostics, which provide measurements of the electron density, reconnecting magnetic field, inflow and outflow velocities, and the electron and ion temperatures. Using these measurements, we observe a balance between the power flow into and out of the layer, and we find that the heating rates for the electrons and ions are significantly in excess of the classical predictions. The formation of plasmoids is observed in laser interferometry and optical self-emission, and the magnetic O-point structure of these plasmoids is confirmed using magnetic probes.
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container_issue	10
title_short	Formation and structure of a current sheet in pulsed-power driven magnetic reconnection experiments
url	http://dx.doi.org/10.1063/1.4986012 http://arxiv.org/abs/1705.10594
remote_bool	false
author2	Lebedev, S. V Suttle, L. G Loureiro, N. F Ciardi, A Burdiak, G. C Chittenden, J. P Clayson, T Eardley, S. J Garcia, C Halliday, J. W. D Niasse, N Robinson, T Smith, R. A Stuart, N Suzuki-Vidal, F Swadling, G. F Ma, J Wu, J
author2Str	Lebedev, S. V Suttle, L. G Loureiro, N. F Ciardi, A Burdiak, G. C Chittenden, J. P Clayson, T Eardley, S. J Garcia, C Halliday, J. W. D Niasse, N Robinson, T Smith, R. A Stuart, N Suzuki-Vidal, F Swadling, G. F Ma, J Wu, J
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doi_str	10.1063/1.4986012
up_date	2024-07-04T04:16:29.502Z
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