Small eigenvalues of closed Riemann surfaces for large genus

Abstract

In this article we study the asymptotic behavior of small eigenvalues of Riemann surfaces for large genus. We show that for any positive integer k, as the genus g goes to infinity, the smallest k-th eigenvalue of Riemann surfaces in any thick part of moduli space of Riemann surfaces of genus g is uniformly comparable to 1g2 in g. In the proof of the upper bound, for any constant ε>0, we will construct a closed Riemann surface of genus g in any ε-thick part of moduli space such that it admits a pants decomposition whose boundary curves all have length equal to ε, and the number of separating systole curves in this surface is uniformly comparable to g.