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خصائص نقل الالكترون العابر لانظمة نقاط كمية متعددة == Transient Electron Transport Properties of Multiple Quantum Dots Systems
Author name:
حسه ابراهيم عسكر
Supervisor name:
شاكر ابراهيم عيسى
General topic:
Physics
Specific topic:
Electronics Physics
Degree:
Master
University:
University Of Basrah - College Of Education For Pure Sciences - Department Of Laser Physics
Language:
Arabic
University location:
Basrah
First pages:
26T1672 - p.pdf
Abstract:
We presented a theoretical study for the electron transportcharacteristic, within a system of multi - quantum dots coupled tothe three metallic leads (right lead as an electron reservoir andtwo left leads as an electron source). We take into account twoarrangements for the scattering regions, one composed of twoquantum dots and the other is composed of four quantum dots.The study concentrated on the system parameters that has itseffect on the characteristic of the electron transfer process andhow these characteristic are affect by the number of the quantumdots in the scattering region in the both arrangements for thescattering regions.The theoretical formulism depends on the one - electron model.Where, we assigning a single effective level for each quantumdots and by taking the effects of the leads continuum levels intoaccount which are show within the wide band gap approximationto produce an imaginary quantity add to the energy levels of thequantum dots, representing the broadening in each effectivelevels.The related basic equation of motion for all the correspondinglevels eigen function probability amplitudes are solvedanalytically by using Laplace transform technique. We calculatethe occupation probability for the right lead, the instantaneouscurrent and the average instantaneous current that passes throughthe right lead.Our calculated results for the time - dependent dynamical electrontransfer offered a general features that takes into account thefollowing effects : Energy levels position changes with respect to the leadFermi level. A suitable applied bais voltage on the right and left leads. Changes of the coupling amount among the quantum dots levels and in between them and the leads levels. Change of the leads temperatureThe characteristic of the time - dependent charge transport in the system are shown through the relation between the average instantaneous current passes the right lead and the applied baisvoltage, which we show as follow : For the case of the scattering region arrangement that compose of two quantum dots it is an Ohmic behavior. For the case of the scattering region arrangement that compose of four quantum dots it is a non - linear (non - Ohmic) behavior.
