S. J. Wang scite author profile

S. J. Wang

2Publications

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MHD instability dynamics and turbulence enhancement towards the plasma disruption at the HL-2A tokamak

Jiang²,

Xu³

et al. 2023

Sci Rep

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The evolutions of MHD instability behaviors and enhancement of both electrostatic and electromagnetic turbulence towards the plasma disruption have been clearly observed in the HL-2A plasmas. Two types of plasma disruptive discharges have been investigated for similar equilibrium parameters: one with a distinct stage of a small central temperature collapse ($$\sim$$ ∼ 5–10%) around 1 millisecond before the thermal quench (TQ), while the other without. For both types, the TQ phase is preceded by a rotating 2/1 tearing mode, and it is the development of the cold bubble from the inner region of the 2/1 island O-point along with its inward convection that causes the massive energy loss. In addition, the micro-scale turbulence, including magnetic fluctuations and density fluctuations, increases before the small collapse, and more significantly towards the TQ. Also, temperature fluctuations measured by electron cyclotron emission imaging enhances dramatically at the reconnection site and expand into the island when approaching the small collapse and TQ, and the expansion is more significant close to the TQ. The observed turbulence enhancement near the X-point cannot be fully interpreted by the linear stability analysis by GENE. Evidences suggest that nonlinear effects, such as the reduction of local $$E_r\times B$$ E r × B shear and turbulence spreading, may play an important role in governing turbulence enhancement and expansion. These results imply that the turbulence and its interaction with the island facilitate the stochasticity of the magnetic flux and formation of the cold bubble, and hence, the plasma disruption.

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Structural Changes between 100 and 300 K of the High-Tc Superconductor YBaCuO Studied by Positron Annihilation

Wang¹,

Li²,

Chen³

et al. 1989

Phys. Stat. Sol. (a)

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The structural changes of the high‐Tc superconductor YBaCuO between 100 and 300 K are studied by positron lifetime and Doppler broadening measurements as a function of temperature. There are anomalous changes in the positron lifetimes and Doppler broadening S‐parameters near 130 and 260 K, which is consistent with some reported experimental results. These anomalies may be cause by the lattice instabilities, such as the ordering readjustment of oxygen vacancies.

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S. J. Wang

MHD instability dynamics and turbulence enhancement towards the plasma disruption at the HL-2A tokamak

Structural Changes between 100 and 300 K of the High-Tc Superconductor YBaCuO Studied by Positron Annihilation

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