Simulation of the Formation of an Ion Beam by Extraction From a Magnetically Confined Plasma
A computational simulation of the formation of an ion beam extracted from a magnetically confined ECR plasma is made. The first simulation stage consists of calculating of the electrostatic field produced by an extraction system. The extraction system is composed of three cylindrically hollow symmet...
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| Published in | IEEE transactions on plasma science Vol. 40; no. 1; pp. 48 - 55 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.01.2012
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Online Access | Get full text |
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| Abstract | A computational simulation of the formation of an ion beam extracted from a magnetically confined ECR plasma is made. The first simulation stage consists of calculating of the electrostatic field produced by an extraction system. The extraction system is composed of three cylindrically hollow symmetrical electrodes and its respective shielding box. For the purpose of calculating the extraction and focalization electrostatic field, a finite-difference algorithm that solves Laplace equation within the ion propagation volume and allows studying the dependency of the electrostatic field on the geometrical configuration of the extraction system is developed. The second stage consists in calculating the electric and magnetic fields due to extracted ions themselves by solving Poisson equation using the fast Fourier transform technique based on a high-order difference approximation with identity expansion scheme. Finally, an algorithm based on Boris integration scheme to calculate ion trajectories with the objective of simulating the movement on an ion beam due to the field generated by electrodes and beam itself is developed. Based upon the results obtained, the search for an optimized ion extraction system from a 14-GHz ECR ion source is begun. Preliminary configurations are obtained and shown. |
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| AbstractList | A computational simulation of the formation of an ion beam extracted from a magnetically confined ECR plasma is made. The first simulation stage consists of calculating of the electrostatic field produced by an extraction system. The extraction system is composed of three cylindrically hollow symmetrical electrodes and its respective shielding box. For the purpose of calculating the extraction and focalization electrostatic field, a finite-difference algorithm that solves Laplace equation within the ion propagation volume and allows studying the dependency of the electrostatic field on the geometrical configuration of the extraction system is developed. The second stage consists in calculating the electric and magnetic fields due to extracted ions themselves by solving Poisson equation using the fast Fourier transform technique based on a high-order difference approximation with identity expansion scheme. Finally, an algorithm based on Boris integration scheme to calculate ion trajectories with the objective of simulating the movement on an ion beam due to the field generated by electrodes and beam itself is developed. Based upon the results obtained, the search for an optimized ion extraction system from a 14-GHz ECR ion source is begun. Preliminary configurations are obtained and shown. A computational simulation of the formation of an ion beam extracted from a magnetically confined ECR plasma is made. The first simulation stage consists of calculating of the electrostatic field produced by an extraction system. The extraction system is composed of three cylindrically hollow symmetrical electrodes and its respective shielding box. For the purpose of calculating the extraction and focalization electrostatic field, a finite-difference algorithm that solves Laplace equation within the ion propagation volume and allows studying the dependency of the electrostatic field on the geometrical configuration of the extraction system is developed. The second stage consists in calculating the electric and magnetic fields due to extracted ions themselves by solving Poisson equation using the fast Fourier transform technique based on a high-order difference approximation with identity expansion scheme. Finally, an algorithm based on Boris integration scheme to calculate ion trajectories with the objective of simulating the movement on an ion beam due to the field generated by electrodes and beam itself is developed. Based upon the results obtained, the search for an optimized ion extraction system from a 14-GHz ECR ion source is begun. Preliminary configurations are obtained and shown. [PUBLICATION ABSTRACT] |
| Author | Sierra, J. A. R. Velasco, A. J. C. |
| Author_xml | – sequence: 1 givenname: J. A. R. surname: Sierra fullname: Sierra, J. A. R. email: jose.rizzo@colnetwork.com organization: Univ. Ind. de Santander (UIS), Bucaramanga, Colombia – sequence: 2 givenname: A. J. C. surname: Velasco fullname: Velasco, A. J. C. email: angel.chacon@uptc.edu.co organization: Univ. Pedagogica y Tecnol. de Colombia (UPTC), Tunja, Colombia |
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| Cites_doi | 10.1109/PAC.1999.794291 10.1063/1.1148540 10.1201/9781420058277 10.1103/PhysRevLett.30.1303 10.1063/1.1141239 10.1063/1.1429774 10.1007/978-1-4757-0459-4 10.1080/10420150500490200 10.1073/pnas.75.6.2541 10.1016/j.nimb.2004.06.004 10.1088/0032-1028/19/8/001 10.1238/Physica.Regular.069a00313 10.1109/TNS.1976.4328378 10.1887/0750301171 10.1109/PAC.2001.987490 10.1238/Physica.Regular.062a00183 |
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| Copyright | Copyright The Institute of Electrical and Electronics Engineers, Inc. (IEEE) Jan 2012 |
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| References | ref13 ref12 ref15 (ref20) 0 ref11 ref10 ref21 holt (ref17) 1965 ref1 ref16 ref18 ref8 ref7 zelenski (ref2) 1999 ref9 ref4 ref3 ref6 ref5 yuan (ref14) 2004; 37 toshiki (ref19) 1988 |
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| SubjectTerms | Algorithms Boris integration algorithm Computational modeling Electric potential Electrodes Electrostatics extraction system fast Fourier transform (FFT) high-order difference approximation with identity expansion scheme Ion beams ion trajectories Laplace equation Mathematical model particle in cell (PIC) particle in mesh plasma Plasma physics Plasmas Poisson equation Simulation Trajectory |
| Title | Simulation of the Formation of an Ion Beam by Extraction From a Magnetically Confined Plasma |
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