-
Based on the analysis of the plasma physics mechanism in negative hydrogen ion source, the particle-in-cell algorithm is studied and optimized and a high efficient storage method of particles is designed. Using the Monte Carlo collision model, considering the plasma potential and coulomb collisions between charged particles, the full three-dimensional particle-in-cell/ Monte Carlo algorithm (PIC/MCC) is developed. With the magnetic charge model, using the FDTD method, the line cusp magnetic field is calculated. With the negative hydrogen ion source JT-60U and considering the main reactions in the negative hydrogen ion source, the full three-dimensional PIC/MCC simulation algorithm is verified by simulation.
-
Keywords:
- negative hydrogen ion source /
- particle-in-cell /
- Monte Carlo method
[1] Terasaki R, Fujino I, Hatayama A 2010 Review of Scientifc Instruments 81 02A703
[2] Fujino I, Hatayama A, Takado N 2008 Review of Scientifc Instruments 79 02A510
[3] Tobari H, Hanada M, Kashiwagi M 2008 Review of Scientifc Instruments 79 02C111
[4] Katoh K ,Takado N, Hatayama A 2006 Review of Scientifc Instruments 77 03A535
[5] Takado N, Tobari H, Inoue T 2008 Journal.of Applied Physics 103 053302
[6] Zhao H Y, Mu Z X 2008 Chinese Physics B 17 1475
[7] Gorse C, Capitelli M ,Bacal M 2008 Chemical Physics 117 117
[8] Jin X L, Huang T, Liao P, Yang Z H 2009 Acta Phys. Sin. 58 5526 ( in Chinese) [金晓林, 黄桃, 廖平, 杨中海 2009 58 5526]
[9] Jin X L,Yang Z H 2006 Acta Phys. Sin. 55 5774 (in Chinese) [金晓林, 杨中海 2006 55 5930]
[10] Jin X L, Yang Z H 2006 Acta Phys. Sin. 55 5774 ( in Chinese) [金晓林, 杨中海 2006 55 5935]
[11] Birdsall C K , Langdon A B 1985 Plasma Physics Via Computer Simulation (New York: McGraw-Hill) pp13
[12] Vahedi V, Surendra M1995 Computer Physics Communication 87 179
[13] Chiaming W, Tungyou L ,Russel C 2008 Journal of Computational Physics 227 4308
[14] Emmert G A ,Wieland R M, Mense A T 1980 Physics of Fluids 23 803
[15] Bruneteau A M , Hollos G, Bacal M 1990 Journal.of Applied Physics 67 7254
-
[1] Terasaki R, Fujino I, Hatayama A 2010 Review of Scientifc Instruments 81 02A703
[2] Fujino I, Hatayama A, Takado N 2008 Review of Scientifc Instruments 79 02A510
[3] Tobari H, Hanada M, Kashiwagi M 2008 Review of Scientifc Instruments 79 02C111
[4] Katoh K ,Takado N, Hatayama A 2006 Review of Scientifc Instruments 77 03A535
[5] Takado N, Tobari H, Inoue T 2008 Journal.of Applied Physics 103 053302
[6] Zhao H Y, Mu Z X 2008 Chinese Physics B 17 1475
[7] Gorse C, Capitelli M ,Bacal M 2008 Chemical Physics 117 117
[8] Jin X L, Huang T, Liao P, Yang Z H 2009 Acta Phys. Sin. 58 5526 ( in Chinese) [金晓林, 黄桃, 廖平, 杨中海 2009 58 5526]
[9] Jin X L,Yang Z H 2006 Acta Phys. Sin. 55 5774 (in Chinese) [金晓林, 杨中海 2006 55 5930]
[10] Jin X L, Yang Z H 2006 Acta Phys. Sin. 55 5774 ( in Chinese) [金晓林, 杨中海 2006 55 5935]
[11] Birdsall C K , Langdon A B 1985 Plasma Physics Via Computer Simulation (New York: McGraw-Hill) pp13
[12] Vahedi V, Surendra M1995 Computer Physics Communication 87 179
[13] Chiaming W, Tungyou L ,Russel C 2008 Journal of Computational Physics 227 4308
[14] Emmert G A ,Wieland R M, Mense A T 1980 Physics of Fluids 23 803
[15] Bruneteau A M , Hollos G, Bacal M 1990 Journal.of Applied Physics 67 7254
Catalog
Metrics
- Abstract views: 8184
- PDF Downloads: 934
- Cited By: 0