1999
DOI: 10.1088/0029-5515/39/11y/324
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Characteristics of Alfvén eigenmodes, burst modes and chirping modes in the Alfvén frequency range driven by negative ion based neutral beam injection in JT-60U

Abstract: The excitation and stabilization of Alfvén eigenmodes and their impact on energetic ion confinement were investigated with negative ion based neutral beam injection at 330-360 keV into weak or reversed magnetic shear plasmas on JT-60U. Toroidicity induced Alfvén eigenmodes (TAEs) were observed in weak shear plasmas with ⟨βh⟩ ⩾ 0.1% and 0.4 ⩽ vb||/vA ⩽ 1. The stability of TAEs is consistent with predictions by the NOVA-K code. New burst modes and chirping modes were observed in the higher β regime of ⟨βh… Show more

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Cited by 80 publications
(84 citation statements)
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“…In addition to the slowing down effect of the density discussed here, recent analysis with the Nova code [28] indicates that the Alfvén continuum in the core of these plasmas during the high density phase is relatively closed, which may also contribute to the reduced AE activity and resulting fast ion transport. These results are similar to the observations in [29,30] that AE modes are stable in negative shear discharges with large density gradient at the ITB, although the regime under consideration here is significantly different, with a q-profile that is flatter in the core and overall significantly higher [see figure 3(c)]. …”
Section: Mhd Stability Limits and Fast Ion Lossessupporting
confidence: 88%
“…In addition to the slowing down effect of the density discussed here, recent analysis with the Nova code [28] indicates that the Alfvén continuum in the core of these plasmas during the high density phase is relatively closed, which may also contribute to the reduced AE activity and resulting fast ion transport. These results are similar to the observations in [29,30] that AE modes are stable in negative shear discharges with large density gradient at the ITB, although the regime under consideration here is significantly different, with a q-profile that is flatter in the core and overall significantly higher [see figure 3(c)]. …”
Section: Mhd Stability Limits and Fast Ion Lossessupporting
confidence: 88%
“…The basic properties of these chirping modes are the same as the DIII-D 'chirping modes' reported in [33]: f 1 2 f TAE , δf/f ∼ 50%, burst duration of ∼1 ms, toroidal mode numbers of n = 1, 2, and 3. (Similar instabilities are observed in other conventional [34] and spherical [35] tokamaks.) A major difference, however, is that these modes are rare in DIII-D, occurring in 1% of the discharges with beam-driven instabilities.…”
Section: Discussionsupporting
confidence: 74%
“…The effect of the energetic ions on the MHD fluid is taken into account in the MHD momentum equation [Eq. (2)] through the energetic-ion current. The MHD equations are solved using a finite difference scheme of fourth-order accuracy in space and time.…”
Section: Simulation Modelmentioning
confidence: 99%
“…1) plasmas heated with negative ion based neutral beam (NNB) injection. [2][3][4][5] Frequencies of the three instabilities are in the range of shear Alfvén eigenmodes. Frequency sweeping of slow FS mode has a good correlation with equilibrium parameter evolution with time scale Ӎ200 ms. On the other hand, time scales of the fast FS mode and the ALE are, respectively 1 -5 ms and 200-400 s, much shorter than the equilibrium time scale.…”
Section: Introductionmentioning
confidence: 99%