Magnetohydrodynamic mechanisms of electric-field transport suppression and plasma-rotation generation, with special reference to tokamak's reversed-shear confinement

Yoshizawa A.; Itoh SI.; Itoh K.; Yokoi N.

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Magnetohydrodynamic mechanisms of electric-field transport suppression and plasma-rotation generation, with special reference to tokamak's reversed-shear confinement

机译：电场输运抑制和等离子体旋转产生的磁流体动力学机理，特别涉及托卡马克的反向剪切约束

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A magnetohydrodynamic analysis is made of the mechanisms of electric-field transport suppression and plasma-flow generation in the context of tokamak's reversed-shear (RS) confinement. The turbulent transport of heat is shown to be suppressed through the combined effect of radial electric field and charge inhomogeneity. The similarity is pointed out between the internal transport barrier in RS modes and the edge counterpart in high-confinement modes. A concave electric-current profile is shown to be a cause of the global plasma rotation, and the latter contributes to the occurrence of a negative radial electric field that plays a key role in the former suppression mechanism. (C) 1999 American Institute of Physics. [S1070-664X(99)02508-2]. [References: 54]

机译：磁流体动力学分析是在托卡马克的反向剪切（RS）约束条件下对电场传输抑制和等离子体流产生的机理进行的。通过径向电场和电荷不均匀性的共同作用，可以抑制热量的湍流传输。指出了RS模式下的内部传输障碍与高约束模式下的边缘对应之间的相似性。示出了凹入的电流曲线是整体等离子体旋转的原因，并且后者导致负径向电场的出现，该负径向电场在前者的抑制机制中起关键作用。（C）1999美国物理研究所。 [S1070-664X（99）02508-2]。 [参考：54]

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《Physics of plasmas》 |1999年第8期|共13页
作者
Yoshizawa A.; Itoh SI.; Itoh K.; Yokoi N.;
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正文语种 eng
中图分类等离子体物理学;
关键词
Drift-wave turbulence; H-mode transition; Diii-d tokamak; Poloidal rotation; Magnetic shear; High-beta(p) discharges; Enhanced confinement; Anomalous transport; Barrier formation; Cross-helicity;

机译：漂移波湍流;H型跃迁;Diii-d托卡马克;极向旋转;磁剪;高β（p）放电;增强约束;异常输运;势垒形成;反螺旋;

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1. Magnetohydrodynamic mechanisms of electric-field transport suppression and plasma-rotation generation, with special reference to tokamak's reversed-shear confinement [J] . Yoshizawa A., Itoh SI., Itoh K., Physics of plasmas . 1999,第8期

机译：电场输运抑制和等离子体旋转产生的磁流体动力学机理，特别涉及托卡马克的反向剪切约束
2. On the generation of transport suppression barriers by externally driven alfven waves in D-shaped, low aspect ratio tokamaks [J] . Bruma C., Cuperman S., Komoshvili K. Physica Scripta: An International Journal for Experimental and Theoretical Physics . 2003,第5期

机译：D型低纵横比托卡马克由外部驱动的阿尔文波产生的传输抑制势垒
3. Plasma confinement modification and convective transport suppression in the scrape-off layer using additional gas puffing in the STOR-M tokamak [J] . Dreval M., Hubeny M., Ding Y., Plasma physics and controlled fusion . 2013,第3期

机译：在STOR-M托卡马克中使用额外的气体吹气，在刮除层中进行等离子体限制改性和对流传输抑制
4. Density Profile and Particle Transport Control as the Critical Ingredients for ELM Suppression in Tokamaks [C] . R. Maingi, D. P. Boyle, T. E. Evans, Conference on Plasma Physics . 2011

机译：密度型材和颗粒传输控制作为托卡马克榆树抑制的临界成分
5. Microturbulence drive and suppression mechanisms in the DIII-D tokamak [D] . Rettig, Curtis Lynn. 1993

机译：DIII-D托卡马克中的微湍流驱动和抑制机制
6. Performance of regional oxygen saturation monitoring by near-infrared spectroscopy (NIRS) in pediatric inter-hospital transports with special reference to air ambulance transports: a methodological study [O] . Tova Hannegård Hamrin, Peter J. Radell, Urban Fläring, -1

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7. Magnetohydrodynamic Transport-Suppression Mechanisms due to Radial Electric Field and Poloidal Plasma Rotation in Tokamaku27s Reversed-Shear Confinement [O] . A. Yoshizawa, N. Yokoi, S.-I. Itoh, 100

机译：托卡马克反转剪切约束中径向电场和极向等离子体旋转引起的磁流体动力学传输抑制机制
8. Issues in tokamak/stellarator transport and confinement enhancement mechanisms. [R] . Perkins, F. W. 1990

机译：托卡马克/仿星器运输和限制增强机制中的问题。

Magnetohydrodynamic mechanisms of electric-field transport suppression and plasma-rotation generation, with special reference to tokamak's reversed-shear confinement

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