Vlasov-Fokker-Planck modeling of magnetic field reconnection driven by heat flow in inertial confinement fusion related scenarios

Summary form only given. In the interaction of high power laser beams with solid density plasma, there are a number of magnetic field generating mechanisms that result in very strong fields that can inhibit energy transport. Here, we present 2D numerical modeling of near critical density plasma usin...

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Hauptverfasser:	Joglekar, Archis S., Thomas, Alec G.R.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Educational institutions Heating Laser beams Laser modes Magnetic fields Plasmas Ultrafast optics
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description	Summary form only given. In the interaction of high power laser beams with solid density plasma, there are a number of magnetic field generating mechanisms that result in very strong fields that can inhibit energy transport. Here, we present 2D numerical modeling of near critical density plasma using a fully implicit Vlasov-Fokker-Planck code, IMPACTA, which includes self-consistent magnetic fields as well as anisotropic electron pressure terms in the expansion of the distribution function. Magnetic field generation and advection by different mechanisms is studied in the context of laser spot heating where reconnection of magnetic field lines may occur. In particular, we compare the relative importance of the Hall, resistivity, and heat flux effects in the magnetic field dynamics of 5 MG oppositely aligned magnetic fields interacting in a plasma of 1 keV temperature with a number density of 10 22 cm −3 . The reconnection rate induced by the heat flux effect is compared with collisionless magnetic field reconnection rates.
doi_str_mv	10.1109/PLASMA.2012.6383307
format	Conference Proceeding
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In the interaction of high power laser beams with solid density plasma, there are a number of magnetic field generating mechanisms that result in very strong fields that can inhibit energy transport. Here, we present 2D numerical modeling of near critical density plasma using a fully implicit Vlasov-Fokker-Planck code, IMPACTA, which includes self-consistent magnetic fields as well as anisotropic electron pressure terms in the expansion of the distribution function. Magnetic field generation and advection by different mechanisms is studied in the context of laser spot heating where reconnection of magnetic field lines may occur. In particular, we compare the relative importance of the Hall, resistivity, and heat flux effects in the magnetic field dynamics of 5 MG oppositely aligned magnetic fields interacting in a plasma of 1 keV temperature with a number density of 10 22 cm −3 . 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In the interaction of high power laser beams with solid density plasma, there are a number of magnetic field generating mechanisms that result in very strong fields that can inhibit energy transport. Here, we present 2D numerical modeling of near critical density plasma using a fully implicit Vlasov-Fokker-Planck code, IMPACTA, which includes self-consistent magnetic fields as well as anisotropic electron pressure terms in the expansion of the distribution function. Magnetic field generation and advection by different mechanisms is studied in the context of laser spot heating where reconnection of magnetic field lines may occur. In particular, we compare the relative importance of the Hall, resistivity, and heat flux effects in the magnetic field dynamics of 5 MG oppositely aligned magnetic fields interacting in a plasma of 1 keV temperature with a number density of 10 22 cm −3 . The reconnection rate induced by the heat flux effect is compared with collisionless magnetic field reconnection rates.</description><subject>Educational institutions</subject><subject>Heating</subject><subject>Laser beams</subject><subject>Laser modes</subject><subject>Magnetic fields</subject><subject>Plasmas</subject><subject>Ultrafast optics</subject><issn>0730-9244</issn><issn>2576-7208</issn><isbn>9781457721274</isbn><isbn>1457721279</isbn><isbn>9781457721298</isbn><isbn>1457721295</isbn><isbn>1457721287</isbn><isbn>9781457721281</isbn><fulltext>true</fulltext><rsrctype>conference_proceeding</rsrctype><creationdate>2012</creationdate><recordtype>conference_proceeding</recordtype><sourceid>6IE</sourceid><sourceid>RIE</sourceid><recordid>eNp9j81KxDAUheMfWLRPMJv7Aq356TTtchAHFwoDitshprdjbJpIEkdm6ZsbYTZuhAOHw3fuhUPIgtGaMdrfbB5WT4-rmlPG61Z0QlB5QspedqxZSskZ77tTUvClbCvJaXf2h8nmnBRUClr1vGkuSRnjO6U0P247KQry_WJV9Ptq7acJQ7WxyukJZj-gNW4HfoRZ7Rwmo2E0aAcIqL1zqJPxDoZg9ujg9QBvqBKM1n-BcVkYklEWcnXMYUaX4Wf8PQloVcIBokangvHxmlyMykYsj35FFuu759v7yiDi9iOYWYXD9jhc_E9_AAP3WWE</recordid><startdate>201207</startdate><enddate>201207</enddate><creator>Joglekar, Archis S.</creator><creator>Thomas, Alec G.R.</creator><general>IEEE</general><scope>6IE</scope><scope>6IH</scope><scope>CBEJK</scope><scope>RIE</scope><scope>RIO</scope></search><sort><creationdate>201207</creationdate><title>Vlasov-Fokker-Planck modeling of magnetic field reconnection driven by heat flow in inertial confinement fusion related scenarios</title><author>Joglekar, Archis S. ; Thomas, Alec G.R.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-ieee_primary_63833073</frbrgroupid><rsrctype>conference_proceedings</rsrctype><prefilter>conference_proceedings</prefilter><language>eng</language><creationdate>2012</creationdate><topic>Educational institutions</topic><topic>Heating</topic><topic>Laser beams</topic><topic>Laser modes</topic><topic>Magnetic fields</topic><topic>Plasmas</topic><topic>Ultrafast optics</topic><toplevel>online_resources</toplevel><creatorcontrib>Joglekar, Archis S.</creatorcontrib><creatorcontrib>Thomas, Alec G.R.</creatorcontrib><collection>IEEE Electronic Library (IEL) Conference Proceedings</collection><collection>IEEE Proceedings Order Plan (POP) 1998-present by volume</collection><collection>IEEE Xplore All Conference Proceedings</collection><collection>IEEE Electronic Library (IEL)</collection><collection>IEEE Proceedings Order Plans (POP) 1998-present</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Joglekar, Archis S.</au><au>Thomas, Alec G.R.</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Vlasov-Fokker-Planck modeling of magnetic field reconnection driven by heat flow in inertial confinement fusion related scenarios</atitle><btitle>2012 Abstracts IEEE International Conference on Plasma Science</btitle><stitle>PLASMA</stitle><date>2012-07</date><risdate>2012</risdate><spage>1C-2</spage><epage>1C-2</epage><pages>1C-2-1C-2</pages><issn>0730-9244</issn><eissn>2576-7208</eissn><isbn>9781457721274</isbn><isbn>1457721279</isbn><eisbn>9781457721298</eisbn><eisbn>1457721295</eisbn><eisbn>1457721287</eisbn><eisbn>9781457721281</eisbn><abstract>Summary form only given. In the interaction of high power laser beams with solid density plasma, there are a number of magnetic field generating mechanisms that result in very strong fields that can inhibit energy transport. Here, we present 2D numerical modeling of near critical density plasma using a fully implicit Vlasov-Fokker-Planck code, IMPACTA, which includes self-consistent magnetic fields as well as anisotropic electron pressure terms in the expansion of the distribution function. Magnetic field generation and advection by different mechanisms is studied in the context of laser spot heating where reconnection of magnetic field lines may occur. In particular, we compare the relative importance of the Hall, resistivity, and heat flux effects in the magnetic field dynamics of 5 MG oppositely aligned magnetic fields interacting in a plasma of 1 keV temperature with a number density of 10 22 cm −3 . 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subjects	Educational institutions Heating Laser beams Laser modes Magnetic fields Plasmas Ultrafast optics
title	Vlasov-Fokker-Planck modeling of magnetic field reconnection driven by heat flow in inertial confinement fusion related scenarios
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