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徐穎峰教授

徐穎峰，1986年1月出生，等離子體物理學(xué)科教授。2012年博士畢業(yè)于中國(guó)科學(xué)技術(shù)大學(xué)并留校做博士后。2014-2021年期間在中科院合肥物質(zhì)科學(xué)研究院等離子體物理研究所工作，2021年加入東華大學(xué)，2025年9月獲聘教授。主要從事托卡馬克等離子體中高能粒子物理、回旋動(dòng)理學(xué)理論和模擬以及等離子體約束等方面的研究。在Nucl. Fusion、Rev. Mod. Plasma Phys.等學(xué)術(shù)期刊發(fā)表SCI論文40多篇，主持國(guó)家自然科學(xué)基金等項(xiàng)目6項(xiàng)，開(kāi)發(fā)兩個(gè)大規(guī)模并行物理程序（獨(dú)立開(kāi)發(fā)軌道追蹤程序GYCAVA，作為核心成員開(kāi)發(fā)回旋動(dòng)理學(xué)程序 NLT）。

研究方向：

1、  磁約束聚變等離子體模擬

2、  大規(guī)模并行物理程序開(kāi)發(fā)

3、  磁約束聚變等離子體理論

榮譽(yù)及獲獎(jiǎng)情況：

1、  2021年入選上海高等教育人才攬蓄行動(dòng)資助

2、  2020年論文入選Plasma Sci. Technol期刊2022年度最具影響力論文之一

3、  2022年論文被選為Plasma Sci. Technol期刊“Highlight of 2022”

4、  2005年全國(guó)大學(xué)生數(shù)學(xué)建模競(jìng)賽上海賽區(qū)一等獎(jiǎng)

近年來(lái)承擔(dān)的主要科研項(xiàng)目：

1、  國(guó)家重點(diǎn)研發(fā)計(jì)劃項(xiàng)目子課題，離子回旋共振加熱下快粒子分布及其對(duì)徑向電場(chǎng)影響的研究，100萬(wàn)元，2025-01至2029-12，負(fù)責(zé)人

2、  國(guó)家自然科學(xué)基金面上項(xiàng)目，EAST上三維擾動(dòng)場(chǎng)引起中性束快離子損失和熱負(fù)荷的模擬研究，70.7萬(wàn)元，2022-01至2025-12，負(fù)責(zé)人

3、  中科院重大科技基礎(chǔ)設(shè)施開(kāi)放研究項(xiàng)目課題，高功率注入下快粒子引起雜質(zhì)產(chǎn)生的機(jī)理研究，253萬(wàn)元，2017-08至2021-07，負(fù)責(zé)人

4、  國(guó)家自然科學(xué)基金面上項(xiàng)目，托卡馬克中共振磁擾動(dòng)對(duì)高能離子行為影響的模擬研究，66.7萬(wàn)元，2018-01至2021-12，負(fù)責(zé)人

5、  國(guó)家自然科學(xué)基金青年科學(xué)基金項(xiàng)目，高頻波與粒子相互作用的相空間輸運(yùn)理論研究，25萬(wàn)元，2015-01至2017-12，負(fù)責(zé)人

6、  中國(guó)博士后科學(xué)基金，離子回旋頻段波對(duì)托卡馬克等離子體流的影響，5萬(wàn)元，2013-05至2014-09，負(fù)責(zé)人

近年來(lái)發(fā)表的代表性論著、計(jì)算機(jī)軟件著作權(quán)：

論文

[1] Y. Xu and S. Wang, Numerical Lie-transform and neighboring equilibrium update in nonlinear simulation of the drift-wave turbulence in a tokamak fusion plasma, Rev. Mod. Plasma Phys. 10, 2 (2026).

[2] Y. Xu, R. Huang, X. Xu, Y. Hu, L. Li, Y. Li, H. Wang, F. Wang, and F. Zhong, Simulations of NBI ion losses with 3D magnetic perturbations and charge exchange on EAST, Nucl. Fusion 65, 116032 (2025).

[3] X. Xu, Y. Xu*, X. Zhang, and X. Xiao, Radial electric field driven by vertical neutral beamlet injection under future fusion reactor conditions, Nucl. Fusion 64, 126053 (2024).

[4] X. Xu, Y. Xu*, K. Ye*, Y. Hu, X. Zhang, T. Zhang, and Y. Jin, Active generation and control of radial electric field by local neutral beamlets injection in tokamaks, Nucl. Fusion 64, 026012 (2024).

[5] N. Li, Y. Xu*, F. Zhong, and D. Zhang, Numerical study of alpha particle loss with toroidal field ripple based on CFETR steady-state scenario, Chin. Phys. B 33, 015202 (2024).

[6] Y. Xu, F. Wang, Y. Li, and F. Zhong, Guiding-centre orbit-following simulations of charge exchange loss of NBI ions with the finite Larmor radius effect, J. Plasma Phys. 89, 905890601 (2023).

[7] F. Wang, Y. Liang*, Y. Xu*, X. Zha, F. Zhong, S. Mao, Y. Duan, and L. Hu, SOLPS-ITER drift modeling of neon impurity seeded plasmas in EAST with favorable and unfavorable toroidal magnetic field direction, Plasma Sci. Technol. 25, 115102 (2023).

[8] Y. Li, Y. Xu*, X. Xu* et al., Hot spots of the main limiter induced by fast ions in experimental advanced superconducting tokamak (EAST), Phys. Plasmas 30, 092503 (2023).

[9] Y. Xu, D. Zhang, J. Chen, and F. Zhong, Simulations of energetic alpha particle loss in the presence of toroidal field ripple in the CFETR tokamak, Plasma Sci. Technol. 24, 105101 (2022).

[10] Y. Xu, Y. Hu, X. Zhang, X. Xu, L. Ye, X. Xiao, and Z. Zheng, Simulations of NBI fast ion loss in the presence of toroidal field ripple on EAST, Plasma Sci. Technol. 23, 095102 (2021).

[11] X. Xu, Y. Xu*, X. Zhang, and Y. Hu, Simulations of the radial electric field induced by neutral beam injection in a tokamak, Nucl. Fusion 61, 086002 (2021).

[12] Y. Hu, Y. Xu* et al., Effects of resonant magnetic perturbations on neutral beam heating in a tokamak, Phys. Plasmas 28, 122502 (2021).

[13] D. Zhang, Y. Xu*, Z. Dai, and S. Wang*, Theory of gyrokinetic velocity moment and its application for zonal flows in a tokamak plasma, Nucl. Fusion 60, 046015 (2020).

[14] Y. Xu, L. Li, Y. Hu, Y. Liu, W. Guo, L. Ye, and X. Xiao, Numerical simulations of NBI fast ion loss with RMPs on the EAST tokamak, Nucl. Fusion 60, 086013 (2020).

[15] X. Xu, Y. Xu*, X. Zhang*, Y. Hu, L. Ye, and X. Xiao, Simulations of first-orbit losses of neutral beam injection (NBI) fast ions on EAST, Plasma Sci. Technol. 22, 085101 (2020).

[16] Y. Xu, W. Guo, Y. Hu, L. Ye, X. Xiao, and S. Wang, Monte Carlo orbit-following simulations including the finite Larmor radius effect based on a phase-space coordinate transform method, Comput. Phys. Commun. 244, 40 (2019).

[17] Y. Xu, W. Guo, L. Ye, X. Xiao, S. Wang, and S. Zhu, Loss and redistribution of energetic passing ions with resonant magnetic perturbations, Phys. Plasmas 25, 012502 (2018).

[18] Y. Xu, L. Ye, Z. Dai, X. Xiao, and S. Wang, Nonlinear gyrokinetic simulation of ion temperature gradient turbulence based on a numerical Lie-transform perturbation method, Phys. Plasmas 24, 082515 (2017).

[19] Y. Xu, S. Wang, and D. Zhang, Toroidal rotation induced by asymmetric cyclotron resonance absorption in minority ICRF-heated tokamak plasmas, Nucl. Fusion 56, 046013 (2016).

計(jì)算機(jī)軟件著作權(quán)

1、    托卡馬克試探粒子蒙特卡羅軌道追蹤模擬軟件[GYCAVA]，2020SR0233321，計(jì)算機(jī)軟件著作權(quán)，2020.3.10，排名第一

2、    托卡馬克等離子體非線(xiàn)性靜電湍流數(shù)值李變換回旋動(dòng)理學(xué)模擬軟件[NLT]，2019SR0323512，計(jì)算機(jī)軟件著作權(quán)，2019.4.11，排名第三

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