
Academic Year:  2013/4 
Owning Department/School:  Department of Physics 
Credits:  6 
Level:  Honours (FHEQ level 6) 
Period: 
Semester 2 
Assessment:  CW 100% 
Supplementary Assessment: 
Likeforlike reassessment (where allowed by programme regulations) 
Requisites:  Before taking this unit you must take PH20018 
Description:  Aims: The aim of this unit is to provide students with experience in the application of some of the major techniques used in the simulation of physical systems, and to develop their ability at using computers in physical modelling. Topics will be chosen for study to encourage a greater understanding of both the model and the underlying physics. The emphasis will be on the application and interpretation of the techniques, not on programming. Learning Outcomes: After taking this unit the student should be able to: * identify issues which influence the choice of programming environment, language and architecture; * write and develop C code for computer simulations, including interfacing to a 2d graphics package; * outline applications of the molecular dynamics technique and the surrounding computational issues; * outline the physics and computational issues arising in the phenomenon of diffusion limited aggregation such as random walks; * outline the physics and computational issues illustrated by the Ising model; * explain the methodology and output of the simulations performed. Skills: Written Communication T/F A, Numeracy T/F A, Data Acquisition, Handling, and Analysis T/F A, Information Technology T/F A, Problem Solving T/F A. Content: Overview of computer languages for scientific work: Computer architecture and code optimisation. Revision of C programming in the UNIX environment. Latticebased simulations: Overview of contemporary applications. Diffusion limited aggregation as a physical model for growth processes. Development of a practical algorithm. Implementation in C, including graphical visualisation. Molecular dynamics, MD: Overview of contemporary applications. Application to multiparticle 2d LennardJones system. Numerical solution of equations of motion. Potential cutoff. Implementation of MD in C, including graphical visualisation. Calculation of observables; temperature, pressure, diffusion coefficient, structural information including pair correlation function g(r). Diffusion limited aggregation: Investigation of properties of clusters formed by diffusion limited aggregation, DLA. Effects of varying the growth rule. Monte Carlo simulation in statistical physics: The Ising model. Revision of elementary statistical physics. Revision of Monte Carlo methods. Importance sampling. Markov states. Metropolis algorithm; Implementation in C, including graphical visualisation. Lookup tables. Computation of thermal averages; magnetisation, energy density, specific heat, susceptibility. Spin correlation function. 
Programme availability: 
PH30056 is Compulsory on the following programmes:Department of Physics
PH30056 is Optional on the following programmes:Department of Physics
