On the complexity of braids

Abstract

We define a measure of "complexity" of a braid which is natural with respect to both an algebraic and a geometric point of view. Algebraically, we modify the standard notion of the length of a braid by introducing generators \ij, which are Garside-like half-twists involving strings i through j, and by counting powered generators \ijk as (|k|+1) instead of simply |k|. The geometrical complexity is some natural measure of the amount of distortion of the n times punctured disk caused by a homeomorphism. Our main result is that the two notions of complexity are comparable. This gives rise to a new combinatorial model for the Teichmueller space of an n+1 times punctured sphere. We also show how to recover a braid from its curve diagram in polynomial time. The key r\ole in the proofs is played by a technique introduced by Agol, Hass, and Thurston.

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