Theory of synergy between electron cyclotron and lower hybrid waves

Dümont, R.; Giruzzi, G.

doi:10.1063/1.1739234

Cited by 23 publications

(19 citation statements)

References 26 publications

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“…Moreover, kinetic calculations [9] performed with a 3D Fokker-Planck code have numerically demonstrated an interesting property: the current driven by the simultaneous use of the two waves, I LHEC , can be significantly larger than the sum of the currents separately driven by the two waves, I LH I EC , in the same plasma conditions. This property, hereafter called the synergy effect, has been subsequently confirmed by a different Fokker-Planck code [10], by a self-consistent kinetic-transport code [11], and by analytical calculations [12]. The above-mentioned experiments [3][4][5][6][7][8] have shown that EC waves could couple to the fast electron tail sustained by LH waves and thus provide efficient current ramp-up, despite the fact that in most cases the EC waves absorption took place after multiple reflections on the tokamak walls.…”

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confidence: 90%

“…The overall behavior of F syn EC is well reproduced, in particular, the strong reduction for central EC power deposition. As explained later on, this is related to the different values of T e EC and to the different conditions of overlap in velocity space of the two interactions [12].…”

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confidence: 95%

“…Another way to visualize the synergy mechanism is through the relaxation of electrons subject to the stochastic force terms associated with Coulomb collisions and quasilinear diffusion [12]. Examples of electron trajectories, computed by a code solving the appropriate Langevin equations [12], are shown in Fig.…”

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confidence: 99%

“…Examples of electron trajectories, computed by a code solving the appropriate Langevin equations [12], are shown in Fig. 4.…”

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confidence: 99%

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Synergy of Electron-Cyclotron and Lower-Hybrid Current Drive in Steady-State Plasmas

et al. 2004

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Improvement (up to a factor of approximately 4) of the electron-cyclotron (EC) current drive efficiency in plasmas sustained by lower-hybrid (LH) current drive has been demonstrated in stationary conditions on the Tore Supra tokamak. This was made possible by feedback controlled discharges at zero loop voltage, constant plasma current, and constant density. This effect, predicted by kinetic theory, results from a favorable interplay of the velocity space diffusions induced by the two waves: the EC wave pulling low-energy electrons out of the Maxwellian bulk, and the LH wave driving them to high parallel velocities.

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confidence: 90%

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confidence: 95%

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confidence: 99%

“…Examples of electron trajectories, computed by a code solving the appropriate Langevin equations [12], are shown in Fig. 4.…”

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confidence: 99%

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Synergy of Electron-Cyclotron and Lower-Hybrid Current Drive in Steady-State Plasmas

et al. 2004

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“…26 . Note that the use here of a second wave is essentially different from other uses of a second wave to optimize the current drive efficiency, [27][28][29][30][31][32][33][34][35] since, rather than promoting absorption by higher velocity electrons, the second wave facilitates the absorption of energy to the LH wave from the α particles. Both methods should lead to an effective increase in the efficiency.…”

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confidence: 99%

Alpha channeling with high-field launch of lower hybrid waves

2015

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Although lower hybrid waves are effective at driving currents in present-day tokamaks, they are expected to interact strongly with high-energy particles in extrapolating to reactors. In the presence of a radial alpha particle birth gradient, this interaction can take the form of wave amplification rather than damping. While it is known that this amplification more easily occurs when launching from the tokamak high-field side, the extent of this amplification has not been made quantitative. Here, by tracing rays launched from the highfield-side of a tokamak, the required radial gradients to achieve amplification are calculated for a temperature and density regime consistent with a hot-ion-mode fusion reactor. These simulations, while valid only in the linear regime of wave amplification, nonetheless illustrate the possibilities for wave amplification using high-field launch of the lower hybrid wave.

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O-regime dynamics and modeling in Tore Supra

et al. 2009

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The regime of nonlinear temperature oscillations (O-regime), characteristic of noninductive discharges on Tore Supra [Équipe Tore Supra, Proceedings of the 12th International Conference on Plasma Physics and Controlled Nuclear Fusion Research, Nice, France, 1988 (International Atomic Energy Agency, Vienna, 1989), Vol. 1, p. 9], is investigated in its triggering and suppressing mechanism. This regime can be described by two nonlinearly coupled equations for the current density j(r) and the electron temperature Te(r) where the equation coefficients are functions of j and Te themselves. Both the integrated modeling code CRONOS [V. Basiuk et al., Nucl. Fusion 43, 822 (2003)] and a two-patch predator-prey system with diffusion and noise have been used and results have been compared to the experimental observations of the O-regime. A database of discharges is analyzed which features monotonic, flat, and reversed safety factor (q) profiles in order to characterize the action of external actuators on the regime dynamics with the widest generality. Electron cyclotron current drive and neutral beam injections have been used in order to induce localized perturbations in the total current profile j(r) as well as to change the plasma confinement conditions in the central region. Magnetic shear perturbations and modifications of the heat transport turn out to be the central parameters governing the dynamics of the O-regime.

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Theory of synergy between electron cyclotron and lower hybrid waves

Cited by 23 publications

References 26 publications

Synergy of Electron-Cyclotron and Lower-Hybrid Current Drive in Steady-State Plasmas

Synergy of Electron-Cyclotron and Lower-Hybrid Current Drive in Steady-State Plasmas

Alpha channeling with high-field launch of lower hybrid waves

O-regime dynamics and modeling in Tore Supra

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