Péter Gurin scite author profile

Abstract. Positional ordering of a two-dimensional fluid of hard disks is examined in such narrow tubes where only the nearest-neighbor interactions take place. Using the exact transfer-matrix method the transverse and longitudinal pressure components and the correlation function are determined numerically. Fluid-solid phase transition does not occur even in the widest tube, where the method just loses its exactness, but the appearance of the dramatic change in the equation of state and the longitudinal correlation function shows that the system undergoes a structural change from a fluid to a solid-like order. The pressure components show that the collisions are dominantly longitudinal at low densities, while they are transverse in the vicinity of close packing density. The transverse correlation function shows that the size of solid-like domains grows exponentially with increasing pressure and the correlation length diverges at close packing. It is managed to find an analytically solvable model by expanding the contact distance up to first order. The approximate model, which corresponds to the system of hard parallel rhombuses, behaves very similarly to the system of hard disks.

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Erratum: Exact solutions for the periodic Anderson model in two dimensions: A non-Fermi-liquid state in the normal phase [Phys. Rev. B 64, 045118 (2001)]

Gurin¹,

Gulácsi²

2002

Phys. Rev. B

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Electronic structure, galvanomagnetic and magnetic properties of the bismuth subhalides Bi4I4 and Bi4Br4

Filatova

Gurin

Kloo

et al. 2007

Journal of Solid State Chemistry

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Nematic and smectic ordering in a system of two-dimensional hard zigzag particles

Varga

Gurin

Armas-Pérez

et al. 2009

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The orientational and positional ordering of the two-dimensional system of hard zigzag particles has been investigated by means of Onsager theory. Analytical results are obtained for the transition densities of the isotropic-nematic and the nematic-smectic phase transitions. It is shown that the stability of the nematic and smectic phases is very sensitive to the molecular shape. In the hard needle limit, only the isotropic-nematic phase transition takes place, while increasing the tail length and the bent angle between the central core and the tails destabilizes the nematic phase. On the other hand the stability of the smectic phase is due to the increasing excluded area cost with bent angle and the tail length. The zigzag particles pack in a layered structure such that they are tilted and form semi-ideal gas in the layers to push the high cost excluded area regions into the interstitial regions. The predictions of Onsager theory are in good agreement with MC simulation data.

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Ordering transitions of weakly anisotropic hard rods in narrow slitlike pores

et al. 2018

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The effect of strong confinement on the positional and orientational ordering is examined in a system of hard rectangular rods with length L and diameter D (L>D) using the Parsons-Lee modification of the second virial density-functional theory. The rods are nonmesogenic (L/D<3) and confined between two parallel hard walls, where the width of the pore (H) is chosen in such a way that both planar (particle's long axis parallel to the walls) and homeotropic (particle's long axis perpendicular to the walls) orderings are possible and a maximum of two layers are allowed to form in the pore. In the extreme confinement limit of D H 2  , where only one layer structures appear, we observe a structural transition from a planar to a homeotropic fluid layer with increasing density, which becomes sharper as L H. In wider pores (2D

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Péter Gurin

Structural properties of hard disks in a narrow tube

Erratum: Exact solutions for the periodic Anderson model in two dimensions: A non-Fermi-liquid state in the normal phase [Phys. Rev. B 64, 045118 (2001)]

Electronic structure, galvanomagnetic and magnetic properties of the bismuth subhalides Bi4I4 and Bi4Br4

Nematic and smectic ordering in a system of two-dimensional hard zigzag particles

Ordering transitions of weakly anisotropic hard rods in narrow slitlike pores

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