부산대학교 도서관

An inner-distal homeomorphism is one such that each of its proximal cells has empty interior. In locally connected spaces, we prove these homeomorphisms have the following properties: Every $cw$-distal homeomorphism is inner-distal but not conversely. The inner-distal homeomorphisms are precisely those for which the diameters of the iterates of every connected subset of the phase space remain uniformly bounded away from zero. If, in addition, the phase space is compact, every distal extension of an inner-distal-homeomorphism under an inner-light map is inner-distal. We also study inner-distal homeomorphisms from the measure-theoretical standpoint through the concept of inner-distal measures. We prove that in Polish metric spaces, a homeomorphism is inner-distal if and only if each Borel probability measure is. In compact metric spaces, the existence of inner-distal measures guarantees the existence of an invariant inner-distal one. In compact, locally connected spaces, the minimal homeomorphisms supporting inner-distal homeomorphism are precisely the inner-distal ones. We also classify the inner-distal homeomorphisms of the circle or the interval. Finally, we give some dynamic consequences of inner-distality.