研究队伍
人才库

高翔

职称:研究员

专业:等离子体物理

电话:0551-65594253

单位:等离子体所

E-mail:xgao@ipp.ac.cn

地址:安徽省合肥市蜀山湖路350号,中国科学院等离子体物理研究所,聚变堆总体研究室,合肥230031

简历

高翔:中国科学院等离子体物理研究所聚变堆总体研究室执行主任,二级研究员、博士生导师。中国科学技术大学(双聘)教授。 1985年7月毕业于南京工学院(东南大学)获学士学位; 1990年11月于中国科学院等离子体物理研究所获硕士学位; 1997年6月于中国科学院等离子体物理研究所获博士学位; 1996-1997在日本原子力研究所做访问学者; 2000-2002被日本原子力研究所邀请为海外特聘研究员(JAERI research fellow)。
研究领域 荣誉 学术论文 专利
主要研究方向是磁约束等离子体物理和高温等离子体诊断技术。目前研究方向是在国家大科学工程EAST托卡马克装置,发展边界与台基等离子体诊断技术(微波反射仪和切向VUV成像诊断),研究台基结构和边界局域模相关物理。参与中国聚变工程实验堆CFETR作总体集成设计、堆芯物理设计,负责CFETR诊断系统概念设计。已在Nuclear Fusion, Plasma Physics and Controlled Fusion, Physics of Plasmas等国际学术杂志上发表论文多篇。目前负责国家自然科学基金面上项目“EAST高约束模的台基湍流及其与台基参数关系的实验研究”等课题研究。2014-2018年担任国家科技部ITER专项“长脉冲H模的实现及其机理研究”项目首席科学家。

[1] X.Gao et al., “Experimental study of pedestal turbulence on EAST tokamak”, Nucl. Fusion, Vol.55, No.8, (083015) 2015

[2] X.Gao et al., “Long pulse H-mode scenarios sustained by RF heating on EAST”, Plasma Science and Technology, Vol.17, No.6, (448) 2015

[3] X.Gao et al., “Observation of pedestal plasma turbulence on EAST Tokamak”, Plasma Science and Technology, Vol.15, No.8, (732) 2013

[4] X.Gao et al., “Experimental study of plasma confinement on EAST”, 23rd IAEA fusion energy conference (IAEA-F1-CN-180- EXC/P4-06), Daejeon, Republic of Korea, Oct.11-17, 2010

[5] X.Gao et al., “ICRF wall conditioning and plasma performance on EAST”, J. Nucl. Mater., Vol.390-391, (864) 2009

[6] X.Gao et al., “Particle confinement and transport coefficients in ac plasmas on the HT-7 superconducting tokamak”, Nucl. Fusion, Vol.48, No.3, (035009) 2008

[7] X.Gao et al., " Study of confinement and LHCD efficiency on the HT-7 tokamak", Plasma Phys. Control. Fusion, Vol.50, No.3, (035006) 2008

[8] X.Gao et al., “Diagnostics for first plasma study on EAST tokamak”, Physics Letters A, Vol.372, No.4 (2286) 2008

[9] X.Gao et al., " Long-pulse discharges by synergy of LHW and IBW heating in the HT-7 tokamak", J. Nucl. Mater., Vol.337-339, (835) 2005

[10] X.Gao et al., "Stationary MARFE and improved confinement mode in a superconducting tokamak", Phy. Rev. E, Vol.65, No.1, (017401) 2002

[11] X.Gao et al., "Evolution of eta-i in JT-60U reverse shear discharges", Plasma Phys. Control. Fusion, Vol.43, No.12, (1759) 2001

[12] X.Gao et al., "A new regime for studying the high bootstrap current fraction plasma", Chinese Phys. Lett, Vol.18, No.7, (931) 2001

[13] X.Gao et al., "High density operation on the HT-7 superconducting tokamak", Nucl. Fusion, Vol.40, No.11, (1875) 2000

[14] X.Gao et al., "MARFE phenomena in the HT-7 tokamak", J. Nucl. Mater., Vol.279, (330) 2000

[15] X.Gao et al., "Plasma density behavior in the Hefei Tokamak-7", Phys. Plasmas, Vol.7, No.7, ( 2933) 2000

[16] X.Gao et al., "Improved confinement mode induced by the MARFE on the HT-7 superconducting tokamak", Plasma Phys. Control. Fusion, Vol.41, No.11(1349) 1999

[17] X.Gao et al., “Far-infrared laser diagnostics on the HT-6M tokamak”, Rev. Sci. Instrum., Vol.66, No.1 (139) 1995

[18] X.Gao et al., “Anomalous current diffusion and improved confinement in the HT-6M tokamak”, Physics Letters A, Vol.193, No.4 (397) 1994