Unprecedented confinement time of electron plasmas with a purely toroidal magnetic field in SMARTEX-C
Confinement time of electron plasmas trapped using a purely toroidal magnetic field has been extended to \(\sim 100\) s in a small aspect ratio (\(R_{o}/{a} \sim {1.59}\), \(R_o\) and \(a\) are device major and minor radius, respectively), partial torus. It surpasses the previous record by nearly tw...
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Veröffentlicht in: | arXiv.org 2020-02 |
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Sprache: | eng |
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Zusammenfassung: | Confinement time of electron plasmas trapped using a purely toroidal magnetic field has been extended to \(\sim 100\) s in a small aspect ratio (\(R_{o}/{a} \sim {1.59}\), \(R_o\) and \(a\) are device major and minor radius, respectively), partial torus. It surpasses the previous record by nearly two orders of magnitude. Lifetime is estimated from the frequency scaling of the linear diocotron mode launched from sections of the wall, that are also used for mode diagnostics. Confinement improves enormously with reduction in neutral pressure in the presence of a steady state magnetic field. In addition, confinement is seen to be independent of the magnetic field, a distinguishing feature of Magnetic Pumping Transport (MPT) theory. Since MPT predicts an upper limit to confinement comparisons have been made between our experiments and MPT estimates. |
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ISSN: | 2331-8422 |