BKM Lie superalgebras from dyon spectra in ZN-CHL orbifolds for composite N

Abstract

We show that the generating function of electrically charged 1/2-BPS states in N=4 supersymmetric ZN-CHL orbifolds of the heterotic string on T6 are given by multiplicative eta-products. The eta-products are determined by the cycle shape of the corresponding symplectic involution in the dual type II picture. This enables us to complete the construction of the genus-two Siegel modular forms due to David, Jatkar and Sen [arXiv:hep-th/0609109] for ZN orbifolds when N is non-prime. We study the Z4 CHL orbifold in detail and show that the associated Siegel modular forms, 3(Z) and 3(Z), are given by the square of the product of three even genus-two theta constants. Extending work by us[arXiv:0807.4451] as well as Cheng and Dabholkar[arXiv:0809.4258], we show that their `square roots' appear as the denominator formulae of two distinct Borcherds-Kac-Moody (BKM) Lie superalgebras. The BKM Lie superalgebra associated with the generating function of 1/4-BPS states, i.e., 3(Z) has a parabolic root system with a light-like Weyl vector and the walls of its fundamental Weyl chamber are mapped to the walls of marginal stability of the 1/4-BPS states.