Physics – Condensed Matter – Soft Condensed Matter
Scientific paper
2001-06-29
Physics
Condensed Matter
Soft Condensed Matter
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Scientific paper
We study the localization of a random heteropolymer onto an homogeneous surface, the problem which is equivalent to the wetting of an interface at disordered substrate in two dimensions, via replica trick by using the Green's function technique. The exact treatment of one- and two-replica binding states is used to compute the free energy of the random heteropolymer. We present analytical results for two particular cases: {\it (i)} nearly statistically symmetric copolymer in the vicinity of the threshold of the annealed problem, and {\it (ii)} the asymmetric polymer with the interaction part of the annealed Hamiltonian being nearly zero. In both cases the localization is due to two-replica binding states. In the case {\it (i)} the two-replica binding state exists both above and below of the one-replica binding state. In the case {\it (ii)} the energy of the two-replica binding state at the transition is finite. A schematic phase diagram of the localization-delocalization transition of the random heteropolymer is suggested.
Chudnovskiy Alexander L.
Stepanow Semjon
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