Frequency dependent conductivity and impedance of nano material chips using Schrodinger frictional equation and treating electrons as strings

Treating electrons and particles as strings is a useful energy expression accounting for the frictional energy has been obtained this dissipated energy depends on the momentum as well as the friction coefficient. This energy relation was used to find a new modified a Schrodinger equation. The equati...

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Bibliographic Details
Main Authors: Idriss Ali Ahmed, Najwa, Dirar Abd-Alla Yagou, Mubarak, Mahmoud, HassabAlla M.A.
Format: Conference Proceeding
Language:English
Subjects:
Conducting medium
Maxwell – Boltzmann distribution
Newton’s physics
Quantum mechanics
Wave function
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Summary:Treating electrons and particles as strings is a useful energy expression accounting for the frictional energy has been obtained this dissipated energy depends on the momentum as well as the friction coefficient. This energy relation was used to find a new modified a Schrodinger equation. The equation was solved using Greens equation. The obtained wave function amplitude is dependent on conductivity as well as the frequency. This wave function was used to find electric current density. For an insulator this current density is frequency independent. The nano chip in this case acts as a resistor that can be increased by decreasing the density of free carriers and increasing the velocity. For a good conductor the nano chip acts as a nano capacitor.
ISSN:2214-7853
2214-7853
DOI:10.1016/j.matpr.2022.05.456