Random space and plane curves

Abstract

We study random knots, which we define as a triple of random periodic functions (where a random function is a random trigonometric series, \[f(θ) = Σk=1∞ ak (k θ) +bk ( k θ),\] with ak, bk are independent gaussian random variables with mean 0 and variance σ(k)2 - our results will depend on the functional dependence of σ on k. In particular, we show that if σ(k) = kα, with α < -3/2, then the probability of getting a knot type which admits a projection with N crossings, decays at least as fast as 1/N. The constant 3/2 is significant, because having α < -3/2 is exactly the condition for f(θ) to be a C1 function, so our class is precisely the class of random tame knots. We also find some suprising experimental observations on the zeros of Alexander polynomials of random knots (with slowly and non-decaying coefficients), and even more surprising observations on their coefficients. Our observations persist in other models of random knots, making it likely that the results are universal.