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HL-1(中国环流器一号)已卓有成效地进行了《MHD不稳定性对运行极限参数的影响》、《等离子体改善约束》、《杂质浓度和输运》、《等离子体边缘条件的控制》和《边缘等离子体特性和扰动》等与等离子体约束物理密切相关的重大课题的系统研究。显著提高和改善等离子体约束性能,获得了许多在国际和国内具有自己特色的重要成果。尤其高密度(n_e>5×10~9m~(-3))低q(q_L<2.2)好约束(τ_E>30ms)的等离子体的获得,偏压电极诱发的高约束模(H模)和高密度孔阑位形下改善欧姆约束(IOC)放电状态的实现是对国际核聚变研究的重要贡献。1992年又成功地进行了低混杂波电流驱动、弹丸注入(863高技术)及电子回旋共振加热的实验研究,分析了三大技术对约束的影响,结束了HL-1仅用欧姆加热、有感电流驱动和气体加料的历史,使等离子体约束的物理实验研究达到新的水平。
HL-1 (China Circulator-1) has conducted a number of successful “Influences of MHD Instability on Operating Limits Parameters,” “Plasma Improvement Constraints,” “Impurity Concentration and Transport,” and “Plasma Edge Condition Control ”And“ edge plasma characteristics and perturbations ”and other major issues closely related to the plasma physics research system. Significantly improve and improve the plasma confinement properties, access to many in the international and domestic have their own important achievements. In particular, the high-density (n_e> 5 × 10 ~ 9m -3) low q (q_L <2.2) plasma with good constraint (τ_E> 30ms) And the improvement of the discharge state of the ohmic confinement (IOC) under the high-density aperture shape is an important contribution to the international fusion research. In 1992, the experiment of low hybrid current drive, projectile injection (863 high-tech) and electron cyclotron resonance heating was successfully carried out. The influence of three technologies on the restraint was analyzed. A sense of current-driven and gas-fed history, the plasma constraint physics experiment reached a new level.