CS 549 Project/Term Paper Suggestions
These are obsolete; projects for 2009 will appear here later
I will be adding/editing this list as I come across new ideas. There may be
more than one student doing the same project (individually) and there may
be several working as a group. In fact, the hands-on projects involving
coding or hardware are probably best done by groups. The list is in
arbitrary order. If you have an idea of your own that you want to explore,
come talk about it. Project proposals (1-2 pages) are due the week after Spring
break. In a proposal, students must explain what they expect to achieve and how
they are going to go about it.
- Simulate the tip-surface forces so as to predict force-distance
curves in an AFM. References: the papers by Garcia and San Paolo covered
in class, and the book by Israelachvili.
- Extend the previous simulation so as to compute amplitude-distance
curves in an AFM in dynamic force mode ("tapping").
- Simulate the complete operation of an AFM for imaging operations.
Extend the simulation to cover pushing operations. This is a group project.
- Build a high-level planner for particle manipulation but restricting
moves to two orthogonal directions.
- Ditto, but for multiple tips.
- Communications at the nanoscale: RF, IR, light, sound; attenuation in air,
liquids, and the body; antenna size; effective distances; strategies.
- Resonant micro and nano cantilevers. Use as sensors; how small can they be?;
carbon nanotubes; use as RF emmitters/receivers.
- Unconventional manipulation techniques: electrokinetics, dielectrophoresis,
thermal gradients, magnetics, optics, ...
- Self-organization from the point of view of nonlinear dynamic systems;
simulation.
- Self-organization from the point of view of cellular automata; simulation.
- Simulator for bacterial motion; with decent graphics.
- Simulator for ant-like algorithms.
- Experiments with active self assembly using Arbuckle's simulator.
- DNA as a scaffold (possibly sacrificial) for nanostructures; wires;
more general structures.
- Methods for measuring the spring constant of AFM cantilevers.
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