Confinement-Induced Nonlocality and Casimir Force in Transdimensional Systems - Archive ouverte HAL
Article Dans Une Revue Physical Chemistry Chemical Physics Année : 2023

Confinement-Induced Nonlocality and Casimir Force in Transdimensional Systems

Résumé

We study within the framework of the Lifshitz theory the long-range Casimir force for in-plane isotropic and anisotropic free-standing transdimensional material slabs. In the former case, we show that the confinement-induced nonlocality not only weakens the attraction of ultrathin slabs but also changes the distance dependence of the material-dependent correction to the Casimir force to go as $\sim\!1/\!\sqrt{l}$ contrary to the $\sim\!1/l$ dependence of that of the local Lifshitz force. In the latter case, we use closely packed array of parallel aligned single-wall carbon nanotubes in a dielectric layer of finite thickness to demonstrate strong orientational anisotropy and crossover behavior for the inter-slab attractive force in addition to its reduction with decreasing slab thickness. We give physical insight as to why such a pair of ultrathin slabs prefers to stick together in the perpendicularly oriented manner, rather than in the parallel relative orientation as one would customarily expect.
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Dates et versions

hal-04174566 , version 1 (09-12-2024)

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Igor Bondarev, Michael Pugh, Pablo Rodriguez-Lopez, Lilia Woods, Mauro Antezza. Confinement-Induced Nonlocality and Casimir Force in Transdimensional Systems. Physical Chemistry Chemical Physics, 2023, 25 (42), pp.29257-29265. ⟨10.1039/D3CP03706A⟩. ⟨hal-04174566⟩
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