Quantum mechanical effects in the Coulomb interaction of electrons which are localized in opposite double electron layers

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2016

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Abstract

The Coulomb interaction between electrons of opposite double layers in nanostructures with taking into account discrete electron states is theoretically studied. It is shown that at a certain ratio between the width of double layers and distances between them, the Coulomb interaction is sensitive to the energy states of interacting electrons. Теоретично дослiджено кулонiвську взаємодiю мiж електронами в протилежних подвiйних шарах у наноструктурах з урахуванням дискретних електронних станiв. Показано, що за певного спiввiдношення мiж шириною подвiйних шарiв i вiдстанню мiж ними кулонiвська взаємодiя чутлива до енергетичних станiв взаємодiючих електронiв

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Coulomb interaction, double electron layer, quantum mechanical effect, кулонiвська взаємодiя, подвiйний електричний шар, квантовомеханiчний ефект

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Lukiyanets B. Quantum mechanical effects in the Coulomb interaction of electrons which are localized in opposite double electron layers / B. Lukiyanets, D. Matulka // Mathematical Modeling and Сomputing. – 2016. – Volume 3, number 2. – Р. 173–176. – Bibliography: 7 titles.

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