Quantum Transmission Line Modeling Method and Its Application to Quantum Dot Amplifiers


During this paper, a replacement transmission line modeling technique is introduced to determine a photon emission model, which is called quantum transmission line modeling technique (Q-TLM). Based on Q-TLM, a new model for a quantum dot structure is established, and it had been found that Q-TLM will accurately describe the gain and spontaneous emission spectra of quantum dot structures. Furthermore, the Q-TLM technique is used to investigate the femtosecond pulse amplification within the quantum dot amplifier in the time-frequency domain. The new modeling technique that mixes the quantum statistic and photon-electron interaction process descriptions provides an engaging tool to predict the temporal and spectral performance of semiconductor optical devices.

Did you like this research project?

To get this research project Guidelines, Training and Code... Click Here

PROJECT TITLE : Multi-tier Workload Consolidations in the Cloud Profiling, Modeling and Optimization ABSTRACT: It is becoming increasingly important to cut down on tail latency in order to improve the experience that users have
PROJECT TITLE : Quantum Blockchain Based on Dimensional Lifting Generalized Gram-Schmidt Procedure ABSTRACT: The development of quantum computers compromises the integrity of classical blockchains, making it necessary either
PROJECT TITLE :A Novel Design of Flip-Flop Circuits using Quantum Dot Cellular Automata (QCA) - 2018ABSTRACT:As the device dimension is shrinking daily the conventional transistor based CMOS technology encounters serious hindrances
PROJECT TITLE : Design and simulation of single layered Logic Generator Block using Quantum Dot Cellular Automata - 2016 ABSTRACT: Quantum Dot Cellular Automata has attracted a heap of attention because of its extremely tiny
PROJECT TITLE : Design of area-delay efficient adder based circuits in quantum dot cellular automata - 2016 ABSTRACT: Semiconductor trade has achieved almost exponential lowering in feature size and has no one hundredpercent

Ready to Complete Your Academic MTech Project Work In Affordable Price ?

Project Enquiry