6533b822fe1ef96bd127d4f7

RESEARCH PRODUCT

Monte Carlo studies ofd= 2 Ising strips with long-range boundary fields

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A two-dimensional Ising model with nearest-neighbour ferromagnetic exchange confined in a strip of width L between two parallel boundaries is studied by Monte Carlo simulations. `Free' boundaries are considered with unchanged exchange interactions at the boundary but long-range boundary fields of the form H (n ) = ? h [n -3 - (L - n + 1) -3 ], where n = 1, 2, ... ,L labels the rows across the strip. In the case of competing fields and L , the system exhibits a critical wetting transition of a similar type as in the well studied case of short-range boundary fields. At finite L , this wetting transition is replaced by a (rounded) interface localization-delocalization transition at Tc (h , L ). The order parameter profiles and correlation function G (n , r ), where r is a coordinate parallel to the boundaries of the strip, are analysed in detail. It is argued that for T Tc (h , L ) the order parameter profile is essentially a linear variation across the strip, i.e. the width w varies as w L , unlike the case in d = 3 where w L 1/2 is the short-range case and w lnL in the case of the n -3 boundary potential holds. The parallel correlation length scales as L 2 as for the short-range case. In addition to this case of competing boundary fields, also the case where both boundaries are sources of fields of the same sign is studied, which then compete with a uniform bulk field such that a capillary condensation transition occurs. The data obtained are consistent with the Kelvin equation as in the case of the short-range surface fields.