The College of Education for Pure Sciences, Department of Physics, organized a scientific lecture entitled (electron dynamics in a qubit coupled with a two-dimensional quantum contact point)
The lecture presented by the student (Ayat Taher Ibrahim) included electron dynamics in a qubit coupled with a two-dimensional quantum contact point.
 Aim of the lecture:
Presenting an extensive theoretical treatment to calculate the results of the quantitative measurement process to prepare the occupancy of the quantum points as a function of time and current passing through the two-dimensional quantum contact point.
Summary:
In our study of the quantum measurement process of a qubit associated with a two-dimensional quantum connection, an integrated computational model was prepared using the method of equations of motion according to Heisenberg's representation, where the equations of motion were derived and an expanded program was prepared to solve them numerically based on the sixth-degree Range Cotta method. As for the quantum contact point in two dimensions, we adopted the graphene chip, while we used the qubit of the type of charge qubit. The calculations for the V_12>V_LR approach were reviewed and all factors related to the determination of quantum equivalence and uncertainty were studied

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