@misc{10481/50190,
year = {2016},
url = {http://hdl.handle.net/10481/50190},
abstract = {A method to simulate an open boundary problem
within the Finite Differences Time Domain (FDTD) approach
for the emission of photo-conductive antennas is presented here.
For this purpose we use convolutional perfectly matched layers
(CPML). In these devices, the semiconductor region, where
transient currents are present in simulation time, is considered
to be an ”active” medium. This medium is extended virtually
beyond its boundaries or the computational domain limits. We
explain in this paper how to simulate the transient state of a
semiconductor in a CPML region as well as the potential of the
method developed to solve conventional practical applications.},
keywords = {Terahertz},
keywords = {Emitters},
keywords = {Emitter  Photo-Conductive Antenna},
keywords = {Simulations of Open Boundary Problem},
keywords = {Convolutional Perfectly Matched Layers},
keywords = {Finite Differences Time Domain method},
title = {Implementation of Open Boundary Problems in Photo-Conductive Antennas by Using Convolutional Perfectly Matched Layers},
doi = {10.1109/TAP.2016.2602357},
author = {Moreno, Enrique and Hemmat, Z. and Roldán Aranda, Juan Bautista and Fernández Pantoja, Mario Alberto and Rubio Bretones, Amelia Consuelo and González García, Salvador and Faez, R.},
}