Numerical simulations to model laser-driven coil-capacitor targets for generation of kilo-Tesla magnetic fields

Numerical simulations to model laser-driven coil-capacitor targets for generation of kilo-Tesla magnetic fields

A coil-capacitor target is modeled using FEM simulations and analytical calculations, which allow to explain the time evolution of such complex target during magnetic field production driven by the flow of an extremely high current generated through the interaction with a high power laser. The numer...

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Main Authors: F. Schillaci, M. De Marco, L. Giuffrida, S. Fujioka, Z. Zhang, G. Korn, D. Margarone
Format: Article
Language:English
Published: AIP Publishing LLC 2018-02-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.5019219
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spelling doaj-058408ff8f374873a15c0e742b29a6192020-11-25T02:28:47ZengAIP Publishing LLCAIP Advances2158-32262018-02-0182025103025103-1710.1063/1.5019219113801ADVNumerical simulations to model laser-driven coil-capacitor targets for generation of kilo-Tesla magnetic fieldsF. Schillaci0M. De Marco1L. Giuffrida2S. Fujioka3Z. Zhang4G. Korn5D. Margarone6Institute of Physics ASCR, v.v.i (FZU), ELI-Beamlines Project, Na Slovance 2, 180 00 Prague, Czech RepublicInstitute of Physics ASCR, v.v.i (FZU), ELI-Beamlines Project, Na Slovance 2, 180 00 Prague, Czech RepublicInstitute of Physics ASCR, v.v.i (FZU), ELI-Beamlines Project, Na Slovance 2, 180 00 Prague, Czech RepublicInstitute of Laser Engineering, Osaka University, Osaka 565-0871, JapanInstitute of Laser Engineering, Osaka University, Osaka 565-0871, JapanInstitute of Physics ASCR, v.v.i (FZU), ELI-Beamlines Project, Na Slovance 2, 180 00 Prague, Czech RepublicInstitute of Physics ASCR, v.v.i (FZU), ELI-Beamlines Project, Na Slovance 2, 180 00 Prague, Czech RepublicA coil-capacitor target is modeled using FEM simulations and analytical calculations, which allow to explain the time evolution of such complex target during magnetic field production driven by the flow of an extremely high current generated through the interaction with a high power laser. The numerical model includes a detailed study of the magnetic field produced by the coil-capacitor target, both in the static and transient cases, as well as magnetic force and Joule heating. The model is validated by experimental data reported in literature and can be of interest for several applications. As an example, the combination of two synchronized nanosecond lasers with the purpose of producing a plasma responsible of the proton-boron (p+ + 11B → 8.5 MeV + 3α) fusion reaction, and energizing two multi-turn coils with the main purpose of confining such a plasma could enhance the reaction rate. The preliminary conceptual design of a magnetic mirror configuration to be used for confining protons and boron ions up to a few MeV/u in a region of less than 1 mm2 is briefly reported.http://dx.doi.org/10.1063/1.5019219
collection DOAJ
language English
format Article
sources DOAJ
author F. Schillaci
M. De Marco
L. Giuffrida
S. Fujioka
Z. Zhang
G. Korn
D. Margarone
spellingShingle F. Schillaci
M. De Marco
L. Giuffrida
S. Fujioka
Z. Zhang
G. Korn
D. Margarone
Numerical simulations to model laser-driven coil-capacitor targets for generation of kilo-Tesla magnetic fields
AIP Advances
author_facet F. Schillaci
M. De Marco
L. Giuffrida
S. Fujioka
Z. Zhang
G. Korn
D. Margarone
author_sort F. Schillaci
title Numerical simulations to model laser-driven coil-capacitor targets for generation of kilo-Tesla magnetic fields
title_short Numerical simulations to model laser-driven coil-capacitor targets for generation of kilo-Tesla magnetic fields
title_full Numerical simulations to model laser-driven coil-capacitor targets for generation of kilo-Tesla magnetic fields
title_fullStr Numerical simulations to model laser-driven coil-capacitor targets for generation of kilo-Tesla magnetic fields
title_full_unstemmed Numerical simulations to model laser-driven coil-capacitor targets for generation of kilo-Tesla magnetic fields
title_sort numerical simulations to model laser-driven coil-capacitor targets for generation of kilo-tesla magnetic fields
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2018-02-01
description A coil-capacitor target is modeled using FEM simulations and analytical calculations, which allow to explain the time evolution of such complex target during magnetic field production driven by the flow of an extremely high current generated through the interaction with a high power laser. The numerical model includes a detailed study of the magnetic field produced by the coil-capacitor target, both in the static and transient cases, as well as magnetic force and Joule heating. The model is validated by experimental data reported in literature and can be of interest for several applications. As an example, the combination of two synchronized nanosecond lasers with the purpose of producing a plasma responsible of the proton-boron (p+ + 11B → 8.5 MeV + 3α) fusion reaction, and energizing two multi-turn coils with the main purpose of confining such a plasma could enhance the reaction rate. The preliminary conceptual design of a magnetic mirror configuration to be used for confining protons and boron ions up to a few MeV/u in a region of less than 1 mm2 is briefly reported.
url http://dx.doi.org/10.1063/1.5019219
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