2012
DOI: 10.1088/0741-3335/54/12/124007
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Measurements of interactions between waves and energetic ions in basic plasma experiments

Abstract: To measure the transport of fast ions by various types of waves, complementary experiments are conducted in linear and toroidal magnetic fields in the large plasma device and the toroidal plasma experiment. Lithium sources that are immersed in the plasma provide the energetic ions. Spatial scans of collectors measure the transport. Techniques to find the beam and optimize the spatial sensitivity are described. Measurements of Coulomb scattering, resonant interaction with Alfvén waves, and transport by drift-wa… Show more

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Cited by 9 publications
(13 citation statements)
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“…A small spreading in the initial parameters creates a small spreading of the ion Larmor radii and a small initial phase difference in the gyromotion among the ions. This induces an oscillation of the beam width at the cyclotron frequency [18,21]. Figure 2 shows time-averaged suprathermal ion current profiles in the presence of plasma, measured at different toroidal locations for two different energies, E = 30 eV and E = 70 eV.…”
mentioning
confidence: 99%
“…A small spreading in the initial parameters creates a small spreading of the ion Larmor radii and a small initial phase difference in the gyromotion among the ions. This induces an oscillation of the beam width at the cyclotron frequency [18,21]. Figure 2 shows time-averaged suprathermal ion current profiles in the presence of plasma, measured at different toroidal locations for two different energies, E = 30 eV and E = 70 eV.…”
mentioning
confidence: 99%
“…In astrophysical plasmas, the understanding of solar energetic particles and of cosmic ray transport still has some gray areas [3,4]. For example, during impulsive solar energetic particle events, large fluctuations in intensity, called dropouts, were observed and are not fully understood [5].Experimental and numerical evidence suggests that suprathermal ion cross-field transport can be nondiffusive [6][7][8][9][10], characterized by a variance of particle displacements that does not scale linearly with time h½rðtÞ − rð0Þ 2 i ∝ t γ , with the transport exponent γ ≠ 1 generally. Here, rðtÞ indicates the particle positions.…”
mentioning
confidence: 99%
“…Experimental and numerical evidence suggests that suprathermal ion cross-field transport can be nondiffusive [6][7][8][9][10], characterized by a variance of particle displacements that does not scale linearly with time h½rðtÞ − rð0Þ 2 i ∝ t γ , with the transport exponent γ ≠ 1 generally. Here, rðtÞ indicates the particle positions.…”
mentioning
confidence: 99%
“…The source is based on a two grid accelerating system with a thermionic emitter similar to the one used at the LAPD at UCLA [13,14]. The emitter is made from lithium aluminosilicate, purchased from HeatWave Labs Inc [15].…”
Section: Fast Ion Sourcementioning
confidence: 99%
“…A schematic of the experimental setup is detailed in figure 1 of [14]. The source is moved between discharges and a high-resolution poloidal cross-section of the fast ion current profile is measured by the detector for each toroidal position of the source.…”
Section: Fast Ion Sourcementioning
confidence: 99%