Title :
Quantum Devices Transport Simulation Using Transfer Matrix Method
Author :
Trebicky, Tomas ; Voves, Jan
Author_Institution :
Fac. of Electr. Eng., Czech Tech. Univ., Prague
Abstract :
The paper describes properties of one-dimensional simulator for modeling quantum electronic system with an arbitrary layered semiconductor structure. Actually, the simulator is being used for predicting the significant parameters of newly designed resonant tunneling diodes with structure containing band steps outside the barriers to decrease the interference between the emitter charge of free electrons and charge in the well leading to undesirable current plateau on the I-V diode characteristics. Kinetic quantum transport models (Wigner function, Green function, density matrix) are general and therefore complex and very time consuming. For the fast design the simple transfer matrix (TM) method seems to be more reliable. On the other hand it can not accurately treat scattering effects and transient operations
Keywords :
circuit simulation; quantum gates; resonant tunnelling diodes; semiconductor process modelling; transfer function matrices; I-V diode characteristics; arbitrary layered semiconductor; current plateau; emitter charge; free electrons; kinetic quantum transport model; one-dimensional simulator; quantum device transport simulation; quantum electronic system modeling; resonant tunneling diode; scattering effect; transfer matrix method; transient operation; Charge carriers; Effective mass; Green function; Interference; Kinetic theory; Particle scattering; Predictive models; Resonant tunneling devices; Schrodinger equation; Semiconductor diodes; Resonant tunneling diode; Schrodinger equation; Simulation; Transfer Matrix;
Conference_Titel :
Computer as a Tool, 2005. EUROCON 2005.The International Conference on
Conference_Location :
Belgrade
Print_ISBN :
1-4244-0049-X
DOI :
10.1109/EURCON.2005.1630076
