[1] Kolesnichenko I I. The role of alpha particles in tokamak reactors[J]. Nucl. Fusion, 1980, 20(20): 727.
[2] Rome J A, Mcalees D G, Gallen J D, et al. Particle-orbit loss regions and their effects on neutral-injection heating in axisymmetric tokamaks[J]. Nucl. Fusion, 1976, 16(1):55.
[3] Goldston R J, White R B, Boozer A H. Confinement of high-energy trapped particles in tokamaks[J]. Phys. Rev.Lett., 1981, 47(9): 647.
[4] Redi M H, Zarnstorff M C, White R B, et al. Collisional stochastic ripple diffusion of alpha particles and beam ions on TFTR[J]. Nucl. Fusion, 1995, 35(10): 1191.
[5] Cao J J, Wang A, Gong X Y, et al. Kinetic theory of passing energetic ion transport in presence of the resonant interactions with a rotating magnetic island[J].Phys. Plasmas, 2016, 23(1): 012301.
[6] Cao J J, Gong X Y, Xiang D, et al. The transport characteristics of passing fast ions produced by nonlocal overlapping of drift island surfaces and magnetic island surfaces[J]. Phys. Plasmas, 2016, 23(8): 082301.
[7] Gao Q, Long Y. Stochastic ripple diffusion of energetic particles in reversed magnetic shear tokamak[J]. Chin.Phys. Lett., 2004, 21(8): 1582.
[8] Mynick H E. Stochastic transport of MeV ions by low-n magnetic perturbations[J]. Physics of Fluids B: Plasma Physics, 1993, 5(5): 1471−1481.
[9] Shinohara K, Suzuki Y, Kim J, et al. Investigation of fast ion behavior using orbit following Monte-Carlo code in magnetic perturbed field in KSTAR[J]. Nucl. Fusion,2016, 56(11): 112018.
[10] Redi M H, Budny R V, Darrow D S, et al. Modelling TF ripple loss of alpha particles in TFTR DT experiments[J].Nucl. Fusion, 1995, 35(12): 1509.
[11] Putvinskij S V, Tubbing B J D, Eriksson L G, et al. On the modelling of fast particle ripple losses in tokamaks[J].Nucl. Fusion, 1994, 34(4): 495.
[12] Garcia-Munoz M, Galdon J, Sanchis-Sanchez L, et al.The role of plasma response on fast-ion losses induced by edge 3D fields in the ASDEX Upgrade and DⅢ-D tokamaks[C]. 26th IAEA Fusion Energy Conferenc(FEC 2016), 2016.
[13] White R B. Canonical Hamiltonian guiding center variables[J]. Phys. Fluids B, 1990, 2(4): 845.
[14] White R B, Chance M S. Hamiltonian guiding center drift orbit calculation for plasmas of arbitrary cross section[J]. Phys. Fluids B, 1984, 27(10): 2455.
[15] White R B, Boozer A H. Rapid guiding center calculations[J]. Phys. Plasmas, 1995, 2(8): 2915.
[16] Gorelenkov N N, White R B. Perturbative study of energetic particle redistribution by Alfvén eigenmodes in ITER[J]. Plasma Phys. Contr. Fusion, 2012, 55(1):15007−15015.
[17] Mück A, Goodman T P, Maraschek M, et al. Sawtooth control experiments on ASDEX Upgrade[J]. Plasma Phys. Contr. Fusion, 2005, 47(10): 1633−1655.
[18] 向东, 王杰, 龚学余, 等. 中性束注入快离子初始分布的蒙特卡罗模拟[J]. 原子能科学技术, 2018, 52(6):961−965. |