[. References and . Agullo, Consequences of plasma rotation for neoclassical tearing mode suppression by electron cyclotron current drive, Physics of Plasmas, vol.24, issue.4, p.92506, 2012.

[. Bardòczi, Impact of neoclassical tearing modeturbulence multi-scale interaction in global confinement degradation and magnetic island stability, Physics of Plasmas, vol.24, issue.12, p.122503, 2017.

[. Bardòczi, Modulation of core turbulent density fluctuations by largescale neoclassical tearing mode islands in the diii-d tokamak, Physics of Fluids, vol.116, issue.4, p.13005, 1986.

D. Luca, Control of tearing mode instabilities by localized electron cyclotron wave heating, Physics of Fluids, vol.29, issue.2, pp.501-506, 1958.

J. Decker, Optimization of the ITER electron cyclotron equatorial launcher for improved heating and current drive functional capabilities, EPJ Web of Conferences, vol.32, issue.6, p.61504, 1994.

, First principles fluid modelling of magnetic island stabilization by electron cyclotron current drive (ECCD), Plasma Physics and Controlled Fusion, vol.59, issue.4, p.45015, 2016.

, Assessment of the ITER electron cyclotron upper launcher capabilities in view of an optimized design, Plasma Physics and Controlled Fusion, vol.58, issue.9, p.54015, 2015.

R. Fitzpatrick-;-fitzpatrick, Helical temperature perturbations associated with tearing modes in tokamak plasmas, Physics of Plasmas, vol.2, issue.3, pp.825-838, 1995.

R. Fitzpatrick-;-fitzpatrick, Effect of nonlinear energy transport on neoclassical tearing mode stability in tokamak plasmas, Physics of Plasmas, vol.24, issue.5, p.52504, 2017.

, Finite-resistivity instabilities of a sheet pinch, Physics of Fluids, vol.6, issue.4, pp.459-484, 1963.

[. Glasser, On the stabilization of neoclassical magnetohydrodynamic tearing modes using localized current drive or heating, Physics of Plasmas, vol.38, p.21808, 1977.

, The effect of magnetic islands on ion temperature gradient turbulence driven transport, Physics of Plasmas, vol.22, issue.4, p.42308, 2015.

[. Hornsby, The nonlinear coupling between gyroradius scale turbulence and mesoscale magnetic islands in fusion plasmas, Interaction of turbulence with magnetic islands: effect on bootstrap current. Plasma Physics and Controlled Fusion, vol.17, p.54008, 2010.

, Reduction of Ion Thermal Diffusivity Inside a Magnetic Island in JT-60U Tokamak Plasma, Phys. Rev. Lett, vol.109, p.65001, 2012.

, Modeling of neoclassical tearing mode stabilization by electron cyclotron heating and current drive in tokamak plasmas, Current Applied Physics, vol.92, issue.2, pp.1567-1739, 2004.

, ITER predictions using the GYRO verified and experimentally validated trapped gyro-Landau fluid transport model, Physics of Fluids, vol.51, issue.8, pp.294-302, 1985.

[. Kurita, Effect of local heating on the m=2 tearing mode in a tokamak, Nuclear Fusion, vol.34, issue.11, p.1497, 1994.

D. D. Westerhof-;-lazzari and E. Westerhof, On the merits of heating and current drive for tearing mode stabilization, Nuclear Fusion, vol.49, issue.7, p.75002, 2009.

. Westerhof, D. D. Lazzari, E. Westerhof, and . Lütjens, XTOR-2F: A fully implicit Newton-Krylov solver applied to nonlinear 3D extended MHD in tokamaks, Journal of Computational Physics, vol.50, issue.7, pp.4267-4270, 1996.

, Stabilization of a magnetic island by localized heating in a tokamak with stiff temperature profile, Plasma Physics and Controlled Fusion, vol.56, issue.8, p.74007, 2012.

[. Navarro, Effect of magnetic islands on profiles, flows, turbulence and transport in nonlinear gyrokinetic simulations, Plasma Physics and Controlled Fusion, vol.59, issue.3, p.34004, 2017.

, RF current drive and plasma fluctuations. Plasma Physics and Controlled Fusion, vol.53, p.124028, 2011.

A. Perkins-;-pletzer and F. W. Perkins, Stabilization of neoclassical tearing modes using a continuous localized current drive, Physics of Plasmas, vol.6, issue.5, pp.1589-1600, 1999.

[. Poli, On recent results in the modelling of neoclassical-tearing-mode stabilization via electron cyclotron current drive and their impact on the design of the upper EC launcher for ITER, Nuclear Fusion, vol.55, issue.1, p.13023, 2015.

[. Poli, Electron cyclotron power management for control of neoclassical tearing modes in the ITER baseline scenario, Nuclear Fusion, vol.58, issue.1, p.16007, 2018.

, Simulation of neoclassical tearing modes in the DIII-D tokamak. II. suppression by radially localized electron cyclotron current drive, Physics of Plasmas, vol.9, issue.10, pp.4229-4240, 2002.

P. H. Rutherford-;-rutherford, Nonlinear growth of the tearing mode, Physics of Fluids, vol.16, issue.11, pp.1903-1908, 1973.

O. Sauter-;-sauter, On the contribution of local current density to neoclassical tearing mode stabilization, Physics of Plasmas, vol.11, issue.10, pp.4808-4813, 2004.

, suppression of m=2 islands by electron cyclotron heating in the texas experimental tokamak: Experiment and theory, Physics of Fluids B: Plasma Physics, vol.5, pp.3239-3245, 1989.

, The effect of density fluctuations on electron cyclotron beam broadening and implications for ITER, Nuclear Fusion, vol.58, issue.1, p.16002, 2018.

, Electron cyclotron resonance heating beam broadening in the edge turbulent plasma of fusion machines, Nuclear Fusion, vol.55, issue.3, p.1929, 1987.

, Tearing mode stabilization by electron cyclotron resonance heating demonstrated in the TEXTOR tokamak and the implication for ITER, Nuclear Fusion, vol.47, issue.2, p.85, 2007.

Q. Günter-;-yu and S. Günter, On the stabilization of neoclassical tearing modes by phased electron cyclotron waves, Plasma Physics and Controlled Fusion, vol.40, issue.11, 1977.

[. Yu, Modeling of the stabilization of neoclassical tearing modes by localized radio frequency current drive, Physics of Plasmas, vol.7, issue.1, pp.1960-1968, 2000.

[. Zarzoso, Impact of rotating magnetic islands on density profile flattening and turbulent transport, Nuclear Fusion, vol.55, issue.11, p.113018, 2015.
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