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3.320 Atomistic Computer Modeling of Materials (SMA 5107), Spring 2005

Matrix of atoms with an approaching methane molecule.

Still image from an animation of cold catalysis of methane, shown in the video for Lecture 14. (Image by Prof. Nicola Marzari.)

Highlights of this Course

This course features a complete set of video lectures.

Course Description

This course uses the theory and application of atomistic computer simulations to model, understand, and predict the properties of real materials. Specific topics include: energy models from classical potentials to first-principles approaches; density functional theory and the total-energy pseudopotential method; errors and accuracy of quantitative predictions: thermodynamic ensembles, Monte Carlo sampling and molecular dynamics simulations; free energy and phase transitions; fluctuations and transport properties; and coarse-graining approaches and mesoscale models. The course employs case studies from industrial applications of advanced materials to nanotechnology. Several laboratories will give students direct experience with simulations of classical force fields, electronic-structure approaches, molecular dynamics, and Monte Carlo.

This course was also taught as part of the Singapore-MIT Alliance (SMA) programme as course number SMA 5107 (Atomistic Computer Modeling of Materials).


Support for this course has come from the National Science Foundation's Division of Materials Research (grant DMR-0304019) and from the Singapore-MIT Alliance.

Technical Requirements

Java® plug-in software is required to run the Java® files found on this course site. RealOne™ Player software is required to run the .rm files found on this course site. File decompression software, such as Winzip® or StuffIt®, is required to open the .zip files found on this course site.



Prof. Gerbrand Ceder
Prof. Nicola Marzari

Course Meeting Times

Two sessions / week
1.5 hours / session



Additional Features

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