Effects of material thickness and surrounding dielectric medium on Coulomb interactions and two-dimensional excitons

F. Garcia Florez; Laurens D. A. Siebbeles; H. T. C. Stool

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Effects of material thickness and surrounding dielectric medium on Coulomb interactions and two-dimensional excitons

机译：材料厚度和周围介质介质对库仑相互作用的影响及二维激子

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We examine the impact of quantum confinement on the interaction potential between two charges in two-dimensional semiconductor nanosheets in solution. The resulting effective potential depends on two length scales, namely, the thickness d and an emergent length scale d* = ∈d/∈_(sol), where ∈ is the permittivity of ihe nanosheel and ∈_(sol) is the permittivity of the solvent. In particular, quantum confinement, and not electrostatics, is responsible for the logarithmic behavior of the effective potential for separations smaller than d, instead of the one-over-distance bulk Coulomb interaction. Finally, we corroborate that the exciton binding energy also depends on the two-dimensional Bohr radius an in addition to the length scales d and d* and analyze the consequences of this dependence.

机译：我们研究量子禁闭对溶液中二维半导体纳米片中的两种电荷之间的相互作用电位的影响。由此产生的有效电位取决于两个长度尺度，即厚度d和紧急长度尺度d * =∈d/∈_（sol），其中∈是纳米eel和∈_（sol）的介电常数是介的溶剂。特别地，量子限制和不是静电，负责分离的有效电位的对数行为，而不是单距离散装库相互作用。最后，我们证实了激子结合能量也取决于长度尺度D和D *之外的二维BoHR半径，并分析这种依赖的后果。

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《Physical review.B.Condensed matter and materials physics》 |2020年第12期|125303.1-125303.9|共9页
作者
F. Garcia Florez; Laurens D. A. Siebbeles; H. T. C. Stool;
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Institute for Theoretical Physics and Center for Extreme Matter and Emergent Phenomena Utrecht University Princentonplein 5 3584 CC Utrecht. The Netherlands;

Optoelectronic Materials Section Department of Chemical Engineering Delft University of Technology Van der Maasweg 9 2629 HZ Delft The Netherlands;

Institute for Theoretical Physics and Center for Extreme Matter and Emergent Phenomena Utrecht University Princentonplein 5 3584 CC Utrecht. The Netherlands;

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Effects of material thickness and surrounding dielectric medium on Coulomb interactions and two-dimensional excitons

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