Islamic Azad University Journal of Optoelectronical Nanostructures Summer 2021 / Vol. 6, No. 3 *Corresponding author: Arezu Jahanshir Address: Department of Physics and Engineering Sciences, Imam Khomeini International University, Buein Zahra Higher Education Centre of Engineering and Technology, Iran. Tell: 00982833894492 Email: jahanshir@bzeng.ikiu.ac.ir Research Paper Quanto-Relativistic Background of Strong Electron-Electron Interactions in Quantum Dots under the Magnetic Field Arezu Jahanshir *,1 1 Department of Physics and Engineering Sciences, Imam Khomeini International University, Buein Zahra Higher Education Centre of Engineering and Technology, Iran Received: 4 Jun 2021 Revised: 16 Jul. 2021 Accepted: 15 Aug. 2021 Published: 15 Sep. 2021 Abstract At a finite temperature, electron-electron interactions and energy eigenvalues were studied using in the field of symplectic geometry and the relativistic radial Schrödinger equation with the expanded exponential thermal potential (parabolic potential) representing the strong electron-electron interaction. Electron-electron interactions can strongly affect the effective mass, mass spectrum, and functionality of multi-electron quantum dots. A quanto-relativistic interaction's behavior and effects with temperature dependence in the magnetic field are shown to have a unique feature in semiconductor quantum dots. These results have important implications for lighting, quantum dot enhancement film, rational design, edge optic, new materials, spin electronics color filter, on-chip, visible and IR/NIR image sensor, photovoltaic, and fabrication of quantum dot qubits with predictable properties. Use your device to scan and read the article online Keywords: Energy Eigenvalues, Gaussian Asymptomatic, Relativistic Effective Mass, Schrödinger Equation Citation: Arezu Jahanshir. Quanto-Relativistic Background of Strong Electron- Electron Interactions in Quantum Dots Under the Magnetic Field. Journal of Optoelectronical Nanostructures, 2021; 6 (3): 1- 24. DOI: 10.30495/JOPN.2021.28742.1231