X Q Li scite author profile

X Q Li

2Publications

1Citation Statement Received

119Citation Statements Given

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Sichuan Normal University

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Influence of asymmetric magnetic perturbation on the nonlinear evolution of double tearing modes

Xiong

Wang

et al. 2017

Phys. Scr.

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The effects of asymmetric magnetic perturbation on the triggering and evolution of double tearing modes (DTMs) are investigated using nonlinear magnetohydrodynamics simulations in a slab geometry. We find that for reversed magnetic shear plasmas the resistive reconnection process induced by the initial perturbation at one rational surface can drive a new island at the other rational surface with the same mode number. The four typical states of the mode for the time evolution are found, and include: (i) a linear growth stage; (ii) a linear/nonlinear stable stage; (iii) an interactively driving stage; and (iv) a symmetric DTM stage. These differ from previous simulation results. Moreover, nonlinear DTM growth is found to strongly depend on the asymmetric magnetic perturbation, particularly in the early nonlinear phase. The initial perturbation strength scale of island width suggests that the left island enters into a Sweet–Parker growth process when the right island is sufficiently large to effectively drive the other. These results predict that although externally applied magnetic perturbations can suppress the neoclassical tearing mode they can also trigger new instabilities such as asymmetric DTMs.

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Study on the dual-synthetic antiferromagnetic property using the Co₂FeAl Heulser electrodes

Zhang¹,

Xu²,

Wu³

et al. 2011

J. Phys.: Conf. Ser.

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X Q Li

Influence of asymmetric magnetic perturbation on the nonlinear evolution of double tearing modes

Study on the dual-synthetic antiferromagnetic property using the Co₂FeAl Heulser electrodes

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X Q Li

Influence of asymmetric magnetic perturbation on the nonlinear evolution of double tearing modes

Study on the dual-synthetic antiferromagnetic property using the Co2FeAl Heulser electrodes

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Study on the dual-synthetic antiferromagnetic property using the Co₂FeAl Heulser electrodes