ECE 595E Lecture 33: Introduction to Finite-Difference Time-Domain Simulations

By Peter Bermel

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

Published on

Abstract

Outline:

  • Recap from Monday
  • Introduction to FDTD
  • Special features of MEEP:
    • Perfectly matched layers
    • Subpixel averaging
    • Symmetry
    • Scheme (programmable) interface
  • Examples:
    • Periodic light-trapping structures
    • Randomly textured structures

Cite this work

Researchers should cite this work as follows:

  • Peter Bermel (2013), "ECE 595E Lecture 33: Introduction to Finite-Difference Time-Domain Simulations," https://nanohub.org/resources/17555.

    BibTex | EndNote

Time

Location

EE 226, Purdue University, West Lafayette, IN

Tags

ECE 595E Lecture 33: Introduction to Finite-Difference Time-Domain Simulations
  • Lecture 33: Introduction to Finite-Difference Time-Domain Simulations 1. Lecture 33: Introduction to Fi… 0
    00:00/00:00
  • Recap from Monday 2. Recap from Monday 21.55488822155489
    00:00/00:00
  • Outline 3. Outline 76.309642976309647
    00:00/00:00
  • Equations for Light Propagation 4. Equations for Light Propagatio… 122.655989322656
    00:00/00:00
  • Finite Difference Time Domain 5. Finite Difference Time Domain 959.42609275942618
    00:00/00:00
  • FDTD Stability 6. FDTD Stability 1910.2435769102438
    00:00/00:00
  • Special Features of MEEP 7. Special Features of MEEP 2468.3683683683685
    00:00/00:00
  • Perfectly Matched Layers 8. Perfectly Matched Layers 2562.862862862863
    00:00/00:00
  • Subpixel Averaging 9. Subpixel Averaging 2661.1611611611611
    00:00/00:00
  • Symmetry and Parallelization 10. Symmetry and Parallelization 2840.5071738405072
    00:00/00:00
  • Using the Scheme Interface 11. Using the Scheme Interface 2873.8405071738407
    00:00/00:00
  • Example: Simulating Si PV Absorption 12. Example: Simulating Si PV Abso… 2899.8331664998332
    00:00/00:00