@inproceedings{MATRIX2008quantumb,
title = {QWIP DESIGN: AN APPROACH USING THE TRANSFER},
author = {MATRIX METHOD TO CALCULATE THE BOUND STATES IN},
url = {https://www.sige.ita.br/edicoes-anteriores/2008/st/13_3.pdf},
year = {2008},
date = {2008-01-01},
booktitle = {Simp\'{o}sio de Aplica\c{c}\~{o}es Operacionais em \'{A}reas de Defesa 2008 (SIGE2008)},
abstract = {This work presents a technique to calculate bound states in both conduction and valence band in complex quantum well structures. QW physics and the Transfer Matrix formalism are discussed. Analytical solutions to solve 2x2 Hamiltonians, as well as numerical results from TM are presented too. The theoretical data are compared with results from the literature and measurements from actual device. The results show good agreement between all compared data, indicating that TMM has a great potential to be used in QWIP design.},
keywords = {design, quantum wells infrared photodetectors, transfer matrix method},
pubstate = {published},
tppubtype = {inproceedings}
}
This work presents a technique to calculate bound states in both conduction and valence band in complex quantum well structures. QW physics and the Transfer Matrix formalism are discussed. Analytical solutions to solve 2x2 Hamiltonians, as well as numerical results from TM are presented too. The theoretical data are compared with results from the literature and measurements from actual device. The results show good agreement between all compared data, indicating that TMM has a great potential to be used in QWIP design.
