UMBC High Performance Computing Facility
Please note that this page is under construction. We are documenting the
240-node cluster maya that will be available after Summer 2014.
Currently, the 84-node cluster tara still operates independently,
until it becomes part of maya at the end of Summer 2014.
Please see the 2013 Resources Pages under the Resources tab for tara information.
Designing and Simulating THz Waveguide Devices using
Finite Element Techniques
David A. Sweigart, Undergraduate Research Assistant, Dept. of Physics, UMBC
L. Michael Hayden, Professor, Department of Physics, UMBC
We designed and simulated a waveguide device at terahertz (THz)
frequencies using a finite element method implemented in COMSOL
Multiphysics. By applying the governing physical equations, THz
generation was simulated for a laser pulse travelling through the
nonlinear core of a five-layer structure. The effect of multiple device
properties on the efficiency and bandwidth of the THz radiation was
investigated to find the optimal configuration. This research was
designed to optimize the structural and material properties of a THz
waveguide device before it is built in the laboratory. Currently,
conventional metal and dielectric waveguides are not able to transport
THz radiation over long distances due to high losses in this frequency
regime. Therefore, our results attempt to determine how to construct an
effective THz waveguide for a broad range of applications such as