Here are some key features of "Meep FDTD": Meep FDTD is a free finite-difference time-domain (FDTD) simulation software package developed at MIT to model electromagnetic systems, along with our MPB eigenmode package.
This workshop will be divided into two parts: the first will be presented to a general audience interested in computational electromagnetism and the second to researchers in the Michigan area interested in utilizing MEEP in their work via a hands-on tutorial with the code.Meep (or MEEP) is a free finite-difference time-domain (FDTD) simulation software. Several examples relevant to current research in nanophotonic and photovoltaic devices will also be discussed. I will describe some of its key functionalities including pervasive interpolation, advanced signal processing, sub-pixel averaging, adiabatic absorbers and scripting capability that are distinguishing characteristics of our code. Since its initial public release in 2006, MEEP has become a popular tool in the photonics community given its extensive feature set and ability to support large-scale, parallelized computations. Workshop Overview: This workshop will explore the various capabilities and inner workings of the open-source finite-difference time-domain (FDTD) software package for electromagnetism developed at MIT known as MEEP. Oskooi is one of the core developers of MEEP. He obtained a master’s degree from MIT in Computation for Design and Optimization in 2008 and a bachelors degree, with honors, in Engineering Science from the University of Toronto in 2004. Joannopoulos in Physics on computational research into nanophotonics. Johnson in Applied Mathematics and John D. Oskooi graduated with a doctorate from the Massachusetts Institute of Technology (MIT) in 2010 where he worked with the groups of Professor Steven G.
Forrest’s Optoelectronic Components and Materials group here at UM earlier this year, he was a JSPS postdoctoral researcher in the Department of Electronic Science and Engineering at Kyoto University in Japan where he investigated enhanced light-trapping designs in nanostructured silicon thin films. Ardavan Oskooi is currently a research fellow in the Department of Electrical Engineering and Computer Science at the University of Michigan. Location: Room: Win 1 & 2 (3358), Duderstadt Centerĭr. Topic: A flexible, free-software package for electromagnetic simulations by the FDTD method The NNIN/C at the University of Michigan will be hosting a workshop on “A flexible, free-software package for electromagnetic simulations by the FDTD method”.Ĭlick below to register to view this event broadcast.
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