ECE 695NS: Numerical Simulations of Electro-optic Energy Systems

By Peter Bermel

Electrical and Computer Engineering, Purdue University, West Lafayette, IN

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Abstract

SPring 2017

This course is currently in production. It is made available in this incomplete form to support the student currently taking this course.

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Researchers should cite this work as follows:

  • Peter Bermel (2017), "ECE 695NS: Numerical Simulations of Electro-optic Energy Systems," https://nanohub.org/resources/25669.

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Location

EE 317, Purdue University, West Lafayette, IN

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Lecture Number/Topic Online Lecture Video Lecture Notes Supplemental Material Suggested Exercises
ECE 695NS Lecture 1: Introduction and Overview View HTML
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ECE 695NS Lecture 2: Computability and NP-hardness View HTML
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ECE 695NS Lecture 3: Practical Assessment of Code Performance View HTML
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ECE 695NS Lecture 4: Eigenproblems for Electro-optic Systems View HTML
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ECE 695NS Lecture 5: Bandstructures for Electro-optic Systems View HTML
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ECE 695NS Lecture 6: Photonic Bandstructures View HTML
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ECE 695NS Lecture 7: Photonic Bandstructure Calculations View HTML
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ECE 695NS Lecture 8: Photonic Bandstructures in MPB View HTML
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ECE 695NS Lecture 9: Fast Fourier Transforms View HTML
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ECE 695NS Lecture 10: Beam Propagation Method I View HTML
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ECE 695NS Lecture 11: Beam Propagation Method II View HTML
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ECE 695NS Lecture 12: Thermomechanical FEM View HTML
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ECE 695NS Lecture 13: Drift-Diffusion Simulations View HTML
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ECE 695NS Lecture 14: Drift-Diffusion Simulations View HTML
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ECE 695NS Lecture 14: Drift-Diffusion Simulations (Adept 2 Demo) View
ECE 695NS Lecture 15: Advanced Drift-Diffusion Simulations View HTML
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ECE 695NS Lecture 17: Electronic Band Structures View HTML
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ECE 695NS Lecture 16 YouTube
ECE 695NS Lecture 18: Using Quantum Espresso for Electronic Band Structures View HTML
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ECE 695NS Lecture 19: Transfer Matricies View HTML
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ECE 695NS Lecture 20: Transfer Matrices and S4 View HTML
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ECE 695NS Lecture 21: Applications of S4 View HTML
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ECE 695NS Lecture 22: Cavity Modeling Framework (CAMFR) View HTML
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ECE 695NS Lecture 23: Applications of the Cavity Modeling Framework (CAMFR) View HTML
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ECE 695NS Lecture 24: Preparing Your Final Presentation View HTML
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ECE 695NS Lecture 25: Coupled Mode Theory View HTML
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ECE 695NS Lecture 26: Applying Coupled Mode Theory View HTML
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ECE 695NS Lecture 27: Finite-Difference Time Domain View HTML
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ECE 695NS Lecture 28: Finite-Difference Time Domain in MEEP I View HTML
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ECE 695NS Lecture 29: Finite-Difference Time Domain in MEEP II YouTube
ECE 695NS Lecture 30: Finite-Difference Time Domain in MEEPPV View HTML
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ECE 695NS Lecture 31: Finite-Difference Time Domain Band Structures I View HTML
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ECE 695NS Lecture 32: Finite-Difference Time Domain Band Structures II View HTML
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ECE 695NS Lecture 33: Finite-Difference Time Domain for Thermophotovoltaics View HTML
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ECE 695NS Lecture 34: Finite-Difference Time Domain and Transfer Matrix Methods for Radiative Cooling View HTML
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ECE 695NS Lecture 35: Solar Hybrid Energy Conversion Systems View HTML
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ECE 695NS Lecture 36: Addressing Engineerings Grand Challeges View HTML
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ECE 695NS Lecture 37: Preparing for our Final Presentations View HTML
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ECE 695NS Student Presentation: Analysis of Asymmetrical Cavities with the Finite Element Method View HTML
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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...

ECE 695NS Student Presentation: Optimization and Analysis of Multilayer Anti-Reflection Coating for Thin-Film Si Selective Solar Absorber View HTML
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To increase the absorption of the thin film selective solar absorber, multilayer anti-reflection coating is designed and optimized, which consists a layer of SiO2 followed by TiO2. Local...