The critical gradient mode(CGM) is employed to predict the energetic particle(EP) transport induced by the Alfven eigenmode(AE).To improve the model,the normalized critical density gradient is set as an inverse propor...The critical gradient mode(CGM) is employed to predict the energetic particle(EP) transport induced by the Alfven eigenmode(AE).To improve the model,the normalized critical density gradient is set as an inverse proportional function of energetic particle density;consequently,the threshold evolves during EP transport.Moreover,in order to consider the EP orbit loss mechanism in CGM,ORBIT code is employed to calculate the EP loss cone in phase space.With these improvements,the AE enhances EPs radial transport,pushing the particles into the loss cone.The combination of the two mechanisms raises the lost fraction to 6.6%,which is higher than the linear superposition of the two mechanisms.However,the loss is still far lower than that observed in current experiments.Avoiding significant overlap between the AE unstable region and the loss cone is a key factor in minimizing EP loss.展开更多
基金the National Key R&D Program of China(Grant No.2019TFE03020000)the National Natural Science Foundation of China(Grant Nos.11875021,12005054,and 12005055)the Sichuan Science and Technology Program(Grant No.2020jqqn0070)。
文摘The critical gradient mode(CGM) is employed to predict the energetic particle(EP) transport induced by the Alfven eigenmode(AE).To improve the model,the normalized critical density gradient is set as an inverse proportional function of energetic particle density;consequently,the threshold evolves during EP transport.Moreover,in order to consider the EP orbit loss mechanism in CGM,ORBIT code is employed to calculate the EP loss cone in phase space.With these improvements,the AE enhances EPs radial transport,pushing the particles into the loss cone.The combination of the two mechanisms raises the lost fraction to 6.6%,which is higher than the linear superposition of the two mechanisms.However,the loss is still far lower than that observed in current experiments.Avoiding significant overlap between the AE unstable region and the loss cone is a key factor in minimizing EP loss.
