Overlap properties and adsorption transition of two Hamiltonian paths
Abstract
We consider a model of two (fully) compact polymer chains, coupled through an attractive interaction. These compact chains are represented by Hamiltonian paths (HP), and the coupling favors the existence of common bonds between the chains. Using a (n=0 component) spin representation for these paths, we show the existence of a phase transition for strong coupling (i.e. at low temperature) towards a ``frozen'' phase where one chain is completely adsorbed onto the other. By performing a Legendre transform, we obtain the probability distribution of overlaps. The fraction of common bonds between two HP, i.e. their overlap q, has both lower (qm) and upper (qM) bounds. This means in particuliar that two HP with overlap greater than qM coincide. These results may be of interest in (bio)polymers and in optimization problems.
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