Detection of Reflection Features in the Neutron Star Low-Mass X-ray Binary Serpens X-1 with NICER

Abstract

We present Neutron Star Interior Composition Explorer (NICER) observations of the neutron star low-mass X-ray binary Serpens X-1 during the early mission phase in 2017. With the high spectral sensitivity and low-energy X-ray passband of NICER, we are able to detect the Fe L line complex in addition to the signature broad, asymmetric Fe K line. We confirm the presence of these lines by comparing the NICER data to archival observations with XMM-Newton/RGS and NuSTAR. Both features originate close to the innermost stable circular orbit (ISCO). When modeling the lines with the relativistic line model RELLINE, we find the Fe L blend requires an inner disk radius of 1.4-0.1+0.2 RISCO and Fe K is at 1.03-0.03+0.13 RISCO (errors quoted at 90%). This corresponds to a position of 17.3-1.2+2.5 km and 12.7-0.4+1.6 km for a canonical neutron star mass (MNS=1.4\ M) and dimensionless spin value of a=0. Additionally, we employ a new version of the RELXILL model tailored for neutron stars and determine that these features arise from a dense disk and supersolar Fe abundance.