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This course explores quasi-static solutions in free space, focusing on their applications within the semiconductor industry. Participants will engage with realistic mathematical applications, fostering inspiration and innovation. The course structure includes midterm homework (50% weight) involving mathematical derivation or programming and literature references. Additionally, research topics (30% weight) will focus on IEEE Electromagnetics and mathematical methods, culminating in presentations and discussions. Finally, innovation (20% weight) encourages the development of new mathematical methods or topics, promoting creativity.
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National Central University Department of Mathematics Numerical ElectroMagnetics& Semiconductor Industrial Applications Ke-Ying Su Ph.D. 02 Quasi-Static Solution in Free Space
I. Score • Purpose of this course • Concepts for semiconductor industry • Realistic mathematical applications • Inspiration & Innovation Score 1. Midterm homework 50% (a) A report of mathematical derivation and/or programming (b) Reference: papers and source code 2. Research 30% (a) IEEE (EM) topic with math method (b) A presentation & open discussion in the course 3. Innovation 20% (a) Possible new math method for the topic or new topic for the math method (b) A presentation & open discussion in the course
