TITLE:
Simulation and Characteristics Improvement of Quantum Dot Slow Light Devices by Geometrical Dimension Alteration
AUTHORS:
Bahram Choupanzadeh, Hassan Kaatuzian, Reza Kohandani, Saeed Abdolhosseini
KEYWORDS:
Slow Light, Coherent Population Oscillation, Quantum Dots, , Slow down Factor
JOURNAL NAME:
Optics and Photonics Journal,
Vol.6 No.8B,
August
25,
2016
ABSTRACT:
In this paper we simulate and analyze a sample of slow light semiconducting device with quantum dot structure based on coherent population oscillation (CPO). The simulation is conducted to enhance the main parameters of slow light device and a method is presented for setting the output specifications of this kind of devices. In this paper, we deal with changing the size of quantum dot to find the ideal size. The simulation results indicate that as the size of quantum dot changes properly (with reducing more than 50 percent of quantum dots both radius and height), then the slope of diagram of the real part of refractive index increases significantly so that the Slow Down Factor (SDF) predicted to be18 times greater. Analysis and simulations based on cylinderical quantum dots structure slow light devices based on exitonic cpo.