The Number of Closed Essential Surfaces in Montesinos Knots with Four Rational Tangles

Abstract

In the complement of a hyperbolic Montesinos knot with 4 rational tangles, we investigate the number of closed, connected, essential, orientable surfaces of a fixed genus g, up to isotopy. We show that there are exactly 12 genus 2 surfaces and 8φ(g - 1) surfaces of genus greater than 2, where φ(g - 1) is the Euler totient function of g - 1. Observe that this count is independent of the number of crossings of the knot. Moreover, this class of knots form an infinite class of hyperbolic 3-manifolds and the result applies to all such knot complements.