A heteropolymer near a linear interface

Article

Biskup, M; den Hollander, F

Radboud University Nijmegen; Charles University Prague

ANNALS OF APPLIED PROBABILITY

1050-5164

1999

668-687

We consider a quenched-disordered heteropolymer, consisting of hydrophobic and hydrophylic monomers, in the vicinity of an oil-water interface. The heteropolymer is modeled by a directed simple random walk (i, S-i)(i is an element of N) on N x Z with an interaction given by the Hamiltonians H-n(omega)(S) = lambda Sigma(i=1)(n)(omega(i) + h)Sign(S-i) (n is an element of N). Here, lambda and h are parameters and (omega(i))(i is an element of N) are i.i.d. ii-valued random variables. The sign(S-i)= +/-1 indicates whether the ith monomer is above or below the interface, the omega(i) = +/-1 indicates whether the ith monomer is hydrophobic or hydrophylic. It was shown by Bolthausen and den Hollander that the free energy exhibits a localization-delocalization phase transition at a curve in the (lambda, h)-plane. In the present paper we show that the free-energy localization concept is equivalent to pathwise localization. In particular, we prove that free-energy localization implies exponential tightness of the polymer excursions away from the interface, strictly positive density of intersections with the interface and convergence of ergodic averages along the polymer. We include an argument due to G. Giacomin, showing that free-energy delocalization implies that there is pathwise delocalization in a certain weak sense.