Noncommutative space�time and Hausdorff dimension

Abstract

We study the Hausdorff dimension of the path of a quantum particle in noncommutative space�time. We show that the Hausdorff dimension depends on the deformation parameter (Formula presented.) and the resolution (Formula presented.) for both nonrelativistic and relativistic quantum particle. For the nonrelativistic case, it is seen that Hausdorff dimension is always less than 2 in the noncommutative space�time. For relativistic quantum particle, we find the Hausdorff dimension increases with the noncommutative parameter, in contrast to the commutative space�time. We show that noncommutative correction to Dirac equation brings in the spinorial nature of the relativistic wave function into play, unlike in the commutative space�time. By imposing self-similarity condition on the path of nonrelativistic and relativistic quantum particle in noncommutative space�time, we derive the corresponding generalized uncertainty relation. � 2017 World Scientific Publishing Company