The PROTO-SPHERA experiment, built at the CR-ENEA laboratory in Frascati, was in part inspired by the jet + torus astrophysical plasmas, a rather common morphology in Astrophysics. This paper illustrates how the said plasma morphology can be reproduced in a laboratory with the setup of the PROTO-SPHERA experiment. The experiment as such displayed the appearance and sustainment of a plasma torus around an internal magnetized plasma centerpost (jet) by self-organisation; an entirely unexplored phenomenon to date. The remarkable ideal MHD stability of the PROTO-SPHERA plasma is extremely significant, as it is obtained in a simply connected geometry, inside a perfectly insulating vacuum vessel, and without the need of a nearby stabilizing conducting shell. The concluding sections of this paper deal with application of force-free fields to the Pulsar Wind Nebulae morphology and present an extension of the well-known split-dipole model. Such an extension provides a natural description of the presence of tori around the Pulsar plasma jets. In addition, similarities and differences between the laboratory and the astrophysical jet + torus plasmas are detailed.
PROTO-SPHERA: a magnetic confinement experiment which emulates the jet + torus astrophysical plasmas / Alladio, Franco; Micozzi, Paolo; Boncagni, Luca; Pau, Annamaria; Naghinajad, Shayesteh; Macera, Samanta; Damizia, Yacopo; Buratti, Paolo; Filippi, Francesco; GALATOLA TEKA, Giuseppe; Giammanco, Francesco; Giovannozzi, Edmondo; Iafrati, Matteo; Lampasi, Alessandro; Marsili, Paolo. - In: PLASMA PHYSICS AND CONTROLLED FUSION. - ISSN 0741-3335. - 66:3(2024), pp. 1-22. [10.1088/1361-6587/ad20f6]
PROTO-SPHERA: a magnetic confinement experiment which emulates the jet + torus astrophysical plasmas
Paolo Micozzi;Annamaria Pau;Shayesteh Naghinajad;Giuseppe Galatola Teka;Matteo Iafrati;Alessandro Lampasi;
2024
Abstract
The PROTO-SPHERA experiment, built at the CR-ENEA laboratory in Frascati, was in part inspired by the jet + torus astrophysical plasmas, a rather common morphology in Astrophysics. This paper illustrates how the said plasma morphology can be reproduced in a laboratory with the setup of the PROTO-SPHERA experiment. The experiment as such displayed the appearance and sustainment of a plasma torus around an internal magnetized plasma centerpost (jet) by self-organisation; an entirely unexplored phenomenon to date. The remarkable ideal MHD stability of the PROTO-SPHERA plasma is extremely significant, as it is obtained in a simply connected geometry, inside a perfectly insulating vacuum vessel, and without the need of a nearby stabilizing conducting shell. The concluding sections of this paper deal with application of force-free fields to the Pulsar Wind Nebulae morphology and present an extension of the well-known split-dipole model. Such an extension provides a natural description of the presence of tori around the Pulsar plasma jets. In addition, similarities and differences between the laboratory and the astrophysical jet + torus plasmas are detailed.| File | Dimensione | Formato | |
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