Episode Synopsis "ECE 695NS Student Presentation: Analysis of Asymmetrical Cavities with the Finite Element Method"

In this presentation, the analysis of the resonant frequencies and fundamental modes of arbitrarily shaped resonant cavities in three dimensions is explored. An incremental insertion Delaunay triangulation algorithm, a medial axis calculation algorithm, an algorithm for meshing the interior of a domain based on the medial axis, and a fast, GPU-based finite element method algorithm were employed to facilitate the exploration....

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More episodes of the podcast [Audio] ECE 695NS: Numerical Simulations of Electro-optic Energy Systems

• ECE 695NS Lecture 1: Introduction and Overview
• ECE 695NS Lecture 2: Computability and NP-hardness
• ECE 695NS Lecture 3: Practical Assessment of Code Performance
• ECE 695NS Lecture 4: Eigenproblems for Electro-optic Systems
• ECE 695NS Lecture 5: Bandstructures for Electro-optic Systems
• ECE 695NS Lecture 6: Photonic Bandstructures
• ECE 695NS Lecture 11: Beam Propagation Method II
• ECE 695NS Lecture 12: Thermomechanical FEM
• ECE 695NS Lecture 14: Drift-Diffusion Simulations (Adept 2 Demo)
• ECE 695NS Lecture 7: Photonic Bandstructure Calculations
• ECE 695NS Lecture 8: Photonic Bandstructures in MPB
• ECE 695NS Lecture 9: Fast Fourier Transforms
• ECE 695NS Lecture 10: Beam Propagation Method I
• ECE 695NS Lecture 13: Drift-Diffusion Simulations
• ECE 695NS Lecture 14: Drift-Diffusion Simulations
• ECE 695NS Lecture 17: Electronic Band Structures
• ECE 695NS Lecture 21: Applications of S4
• ECE 695NS Lecture 22: Cavity Modeling Framework (CAMFR)
• ECE 695NS Lecture 15: Advanced Drift-Diffusion Simulations
• ECE 695NS Lecture 18: Using Quantum Espresso for Electronic Band Structures
• ECE 695NS Lecture 19: Transfer Matricies
• ECE 695NS Lecture 20: Transfer Matrices and S4
• ECE 695NS Lecture 23: Applications of the Cavity Modeling Framework (CAMFR)
• ECE 695NS Lecture 26: Applying Coupled Mode Theory
• ECE 695NS Lecture 30: Finite-Difference Time Domain in MEEPPV
• ECE 695NS Lecture 33: Finite-Difference Time Domain for Thermophotovoltaics
• ECE 695NS Lecture 34: Finite-Difference Time Domain and Transfer Matrix Methods for Radiative Cooling
• ECE 695NS Lecture 24: Preparing Your Final Presentation
• ECE 695NS Lecture 25: Coupled Mode Theory
• ECE 695NS Lecture 27: Finite-Difference Time Domain
• ECE 695NS Lecture 28: Finite-Difference Time Domain in MEEP I
• ECE 695NS Lecture 35: Solar Hybrid Energy Conversion Systems
• ECE 695NS Lecture 36: Addressing Engineerings Grand Challeges
• ECE 695NS Lecture 37: Preparing for our Final Presentations
• ECE 695NS Lecture 31: Finite-Difference Time Domain Band Structures I
• ECE 695NS Lecture 32: Finite-Difference Time Domain Band Structures II
• ECE 695NS Student Presentation: Analysis of Asymmetrical Cavities with the Finite Element Method
• ECE 695NS Student Presentation: Optimization and Analysis of Multilayer Anti-Reflection Coating for Thin-Film Si Selective Solar Absorber