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W4210673703 abstract "Low temperature structural and superfluid properties of $^{4}mathrm{He}$ confined in cylindrical nanopores are theoretically investigated by means of first-principle quantum Monte Carlo (QMC) simulations. We vary the density of $^{4}mathrm{He}$ inside the pore, as well as the pore diameter and the potential describing the interaction of each $^{4}mathrm{He}$ atom with the pore surface. Accordingly, the $^{4}mathrm{He}$ fluid inside the pore forms either a single channel along the axis, or a series of concentric cylindrical shells, with varying degrees of shell overlap. In the limit of pore length greatly exceeding its radius, the $^{4}mathrm{He}$ fluid always displays markedly one-dimensional behavior, with no ``dimensional crossover'' above some specific pore radius and/or as multiple concentric shells form, in contrast to what was recently claimed by other authors [Phys. Rev. B 101, 104505 (2020)]. Indeed, the predicted robustness of one-dimensional physics suggests that this system may offer a broadly viable pathway to the experimental observation of exotic behavior of, e.g., junctions of interacting Tomonaga-Luttinger liquids, in an appropriately designed network of nanopores." @default.
W4210673703 created "2022-02-08" @default.
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W4210673703 date "2022-02-02" @default.
W4210673703 modified "2023-09-25" @default.
W4210673703 title "Quasi-one-dimensional He4 in nanopores" @default.
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W4210673703 doi "https://doi.org/10.1103/physrevb.105.085402" @default.
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