User:Koprucki:Examples:myTest: Difference between revisions

Revision as of 10:48, 7 February 2025

The clavier gate electrodes on the top surface generate a moving array of QD potentials

Top view on the Si-QuBus with the four different clavier gate sets highlighted in color

Electron Shuttling Model is a quantum dynamical model of an electron to be shuttled in a silicon quBus device.

Quantum dynamical modeling of an electron to be shuttled, governed by the electric potential generated by the clavier (and other) gates in a Silicon QuBus device. Spin and valley states as well as the respective interactions are neglected. Moreover, the current model is limited to the coherent wave packet evolution and disregards the effects of noise and dissipation.

The Electron Shuttling Model contains the following mathematical expressions:

The Electron Shuttling Model is applied by the following computational tasks:

Free Fall Impact Velocity

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