Electrode Shape Optimization Using Continuum Sensitivity Analysis in Unipolar Space-Charge System
This study proposes an electrode shape optimization strategy with a space-charge distribution. Previous studies on electrode shape optimization did not consider field distortion through a space charge. Here, a non-dimensional charge transport equation and a Poisson equation are numerically solved in...
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| Veröffentlicht in: | IEEE transactions on magnetics 2021-06, Vol.57 (6), p.1-4 |
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| container_title | IEEE transactions on magnetics |
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| creator | Choi, Chan Young Park, Il Han |
| description | This study proposes an electrode shape optimization strategy with a space-charge distribution. Previous studies on electrode shape optimization did not consider field distortion through a space charge. Here, a non-dimensional charge transport equation and a Poisson equation are numerically solved in a fully coupled system using a standard finite element method (FEM) for transient analysis. The proposed method can be used to generate or smoothen the target field of a particular part in a strongly inhomogeneous field, such as dry etching reactor. The deformations of the design parameters are determined based on the velocity field calculated through a sensitivity analysis and are expressed using the level set method. To verify its feasibility, the proposed method was tested on a planer diode model. The results show that the optimized shape is well-matched with the analytical solution. Application models, such as a sharp pin-plane model, were also tested to demonstrate the utility of the proposed method. |
| doi_str_mv | 10.1109/TMAG.2021.3061730 |
| format | Article |
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Previous studies on electrode shape optimization did not consider field distortion through a space charge. Here, a non-dimensional charge transport equation and a Poisson equation are numerically solved in a fully coupled system using a standard finite element method (FEM) for transient analysis. The proposed method can be used to generate or smoothen the target field of a particular part in a strongly inhomogeneous field, such as dry etching reactor. The deformations of the design parameters are determined based on the velocity field calculated through a sensitivity analysis and are expressed using the level set method. To verify its feasibility, the proposed method was tested on a planer diode model. The results show that the optimized shape is well-matched with the analytical solution. 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Previous studies on electrode shape optimization did not consider field distortion through a space charge. Here, a non-dimensional charge transport equation and a Poisson equation are numerically solved in a fully coupled system using a standard finite element method (FEM) for transient analysis. The proposed method can be used to generate or smoothen the target field of a particular part in a strongly inhomogeneous field, such as dry etching reactor. The deformations of the design parameters are determined based on the velocity field calculated through a sensitivity analysis and are expressed using the level set method. To verify its feasibility, the proposed method was tested on a planer diode model. The results show that the optimized shape is well-matched with the analytical solution. Application models, such as a sharp pin-plane model, were also tested to demonstrate the utility of the proposed method.</description><subject>Charge distribution</subject><subject>Charge transport</subject><subject>Design optimization</subject><subject>Design parameters</subject><subject>Electric fields</subject><subject>Electrodes</subject><subject>electrostatics</subject><subject>Exact solutions</subject><subject>Finite element method</subject><subject>Level set</subject><subject>Linear programming</subject><subject>Magnetism</subject><subject>Mathematical model</subject><subject>Model testing</subject><subject>Optimization</subject><subject>optimization methods</subject><subject>Parameter sensitivity</subject><subject>Poisson equation</subject><subject>Sensitivity analysis</subject><subject>Shape</subject><subject>Shape optimization</subject><subject>Space charge</subject><subject>Transient analysis</subject><subject>Transport equations</subject><subject>Velocity distribution</subject><issn>0018-9464</issn><issn>1941-0069</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNo9kF1LwzAUhoMoOKc_QLwJeN2ZNGnaXI4ypzDZxbbrkLSnW0a_TFJh_no7Nrw6vPC8L4cHoWdKZpQS-bb9mi9nMYnpjBFBU0Zu0IRKTiNChLxFE0JoFkku-D168P44Rp5QMkF6UUMRXFcC3hx0D3jdB9vYXx1s1-Kdt-0e510bbDsMDd5A622wPzac8LzV9clbj-3Itbbvau3wptcFRPlBu_04ePIBmkd0V-naw9P1TtHufbHNP6LVevmZz1dREUsWIiA8q2JpJDM8zSoBGTeJNIURZckLltJUcMF0kmYpCDCmSkstSMLLQphKa82m6PWy27vuewAf1LEb3PikV3ESZ5IzRpORoheqcJ33DirVO9tod1KUqLNJdTapzibV1eTYebl0LAD885IJmmSU_QFx3XDV</recordid><startdate>20210601</startdate><enddate>20210601</enddate><creator>Choi, Chan Young</creator><creator>Park, Il Han</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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Previous studies on electrode shape optimization did not consider field distortion through a space charge. Here, a non-dimensional charge transport equation and a Poisson equation are numerically solved in a fully coupled system using a standard finite element method (FEM) for transient analysis. The proposed method can be used to generate or smoothen the target field of a particular part in a strongly inhomogeneous field, such as dry etching reactor. The deformations of the design parameters are determined based on the velocity field calculated through a sensitivity analysis and are expressed using the level set method. To verify its feasibility, the proposed method was tested on a planer diode model. The results show that the optimized shape is well-matched with the analytical solution. 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| language | eng |
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| source | IEEE Electronic Library (IEL) |
| subjects | Charge distribution Charge transport Design optimization Design parameters Electric fields Electrodes electrostatics Exact solutions Finite element method Level set Linear programming Magnetism Mathematical model Model testing Optimization optimization methods Parameter sensitivity Poisson equation Sensitivity analysis Shape Shape optimization Space charge Transient analysis Transport equations Velocity distribution |
| title | Electrode Shape Optimization Using Continuum Sensitivity Analysis in Unipolar Space-Charge System |
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