Study of the L-mode tokamak plasma 'shortfall' with local and global nonlinear gyrokinetic delta f particle-in-cell simulation

Chowdhury J.; Wan Weigang; Chen Yang; Parker Scott E.; Groebner Richard J.; Holland C.; Howard N. T.

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Study of the L-mode tokamak plasma 'shortfall' with local and global nonlinear gyrokinetic delta f particle-in-cell simulation

机译：L-模式托卡马克等离子体的“不足”与局部和全局非线性陀螺动力学δ-in-cell模拟的研究

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The delta f particle-in-cell code GEM is used to study the transport "shortfall" problem of gyrokinetic simulations. In local simulations, the GEM results confirm the previously reported simulation results of DIII-D [Holland et al., Phys. Plasmas 16, 052301 (2009)] and Alcator C-Mod [Howard et al., Nucl. Fusion 53, 123011 (2013)] tokamaks with the continuum code GYRO. Namely, for DIII-D the simulations closely predict the ion heat flux at the core, while substantially underpredict transport towards the edge; while for Alcator C-Mod, the simulations show agreement with the experimental values of ion heat flux, at least within the range of experimental error. Global simulations are carried out for DIII-D L-mode plasmas to study the effect of edge turbulence on the outer core ion heat transport. The edge turbulence enhances the outer core ion heat transport through turbulence spreading. However, this edge turbulence spreading effect is not enough to explain the transport underprediction. (C) 2014 AIP Publishing LLC.

机译：Δf单元格内粒子代码GEM用于研究陀螺动力学模拟的运输“短缺”问题。在局部模拟中，GEM结果证实了先前报道的DIII-D模拟结果[Holland et al。，Phys。 Plasmas 16，052301（2009）]和Alcator C-Mod [Howard et al。，Nucl。 [Fusion 53，123011（2013）]带有连续码GYRO的托卡马克。就是说，对于DIII-D，模拟紧密地预测了核心处的离子热通量，而实际上却低估了向边缘的传输。而对于Alcator C-Mod，仿真显示至少在实验误差范围内与离子热通量的实验值一致。对DIII-D L型等离子体进行了全局模拟，以研究边缘湍流对外核离子传热的影响。边缘湍流通过湍流扩散增强了外核离子的热传输。但是，这种边缘湍流扩散效应不足以解释运输过程的低估。（C）2014 AIP Publishing LLC。

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《Physics of plasmas》 |2014年第11期|共11页
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Chowdhury J.; Wan Weigang; Chen Yang; Parker Scott E.; Groebner Richard J.; Holland C.; Howard N. T.;
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1. Study of the L-mode tokamak plasma "shortfall" with local and global nonlinear gyrokinetic delta f particle-in-cell simulation [J] . Chowdhury J., Wan Weigang, Chen Yang, Physics of plasmas . 2014,第11期

机译：L-模式托卡马克等离子体的“不足”与局部和全局非线性陀螺动力学δ-in-cell模拟的研究
2. Re-splitting delta f method for electro-magnetic gyrokinetic particle-in-cell (PIC) simulation of tokamak plasmas [J] . Computer physics communications . 2020,第期

机译：托卡马克等离子体的电磁旋转粒子粒细胞（PIC）模拟重新分裂ΔF
3. AWECS: A Linear Gyrokinetic δf Particle-in-Cell Simulation Code for the Study of Alfvenic Instabilities in High-β Tokamak Plasmas [J] . A. Bierwage, L. Chen Communications in computational physics . 2008,第3期

机译：AWECS：用于研究高βTokamak血浆中肺泡不稳定性的线性运动动力学δf细胞内颗粒模拟代码
4. Collisional effects on global gyrokinetic particle-in-cell simulations of ITG and TEM instabilities in tokamaks [C] . K. Kauffmann, R. Kleiber, R. Hatzky Conference on Plasma Physics . 2010

机译：托克马克斯ITG和TEM稳定性对全球热因子粒子仿真的碰撞影响
5. Gyrokinetic particle-in-cell simulations of strong poloidal flow radial gradient and parallel nonlinearity effects on toroidal ion temperature gradient driven turbulence. [D] . Kniep, James C. 2006

机译：强极化电流径向梯度和平行非线性对环形离子温度梯度驱动的湍流的陀螺动力学粒子模拟。
6. Simulations tackle abrupt massive migrations of energetic beam ions in a tokamak plasma [O] . Andreas Bierwage, Kouji Shinohara, Yasushi Todo, -1

机译：模拟解决了托卡马克等离子体中高能束离子的突然大量迁移
7. Characterizing turbulent transport in ASDEX Upgrade L-mode plasmas via nonlinear gyrokinetic simulations [O] . Told, D., Jenko, F., Görler, T., 2013

机译：表征asDEX中的湍流传输通过非线性陀螺动力学模拟升级L模式等离子体

Study of the L-mode tokamak plasma 'shortfall' with local and global nonlinear gyrokinetic delta f particle-in-cell simulation

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