Computational Nanoscience, Lecture 12: In-Class Simulation of Ising Model
Recommendations
- Computational Nanoscience, Lecture 11: Phase Transitions and the Ising Model
- Computational Nanoscience, Homework Assignment 4: Hard-Sphere Monte Carlo and Ising Model
- Illinois PHYS 466, Lecture 19: The Ising Model
- Computational Nanoscience, Lecture 5: A Day of In-Class Simulation: MD of Carbon Nanostructures
- Computational Nanoscience, Lecture 15: In-Class Simulations: Hartree-Fock
- Computational Nanoscience, Lecture 19: Band Structure and Some In-Class Simulation: DFT for Solids
- Illinois Solid State Electronic Devices Classes Tools
- Computational Nanoscience, Lecture 9: Hard-Sphere Monte Carlo In-Class Simulation
- Computational Nanoscience, Lecture 1: Introduction to Computational Nanoscience
Category
Published on
Abstract
This is a two part lecture in which we discuss the spin-spin correlation function for the the Ising model, correlation lengths, and critical slowing down. An in-class simulation of the 2D Ising Model is performed using the tool "Berkeley Computational Nanoscience Class Tools". We look at domain wall formation at low temperature, and the phase transition for the anti-ferromagnetic and ferromagnetic system.
Credits
University of California, Berkeley
Cite this work
Researchers should cite this work as follows:
-
Elif Ertekin; Jeffrey C Grossman (2008), "Computational Nanoscience, Lecture 12: In-Class Simulation of Ising Model," https://nanohub.org/resources/4126.