Finding a way to preserve spins in non-magnetic semiconductors is essential for future spin-based electronics. The spins of excitons have been widely explored because the polarization-dependent selection rule of inter-band optical transition provides rich information about their spins. However, the time scale on which we can measure the exciton spins is limited by the radiative lifetime, which is often less than 1 ns. In this report, we discuss the origin of the unexpectedly long decay time (>10 ns) of a Kerr rotation (KR) signal observed in an undoped GaAs quantum well (QW). We consider a probable cause of the observed long KR decay is the existence of spin-polarized dark excitons. Additional data also gave us the opportunity to discuss spin diffusion and spin-orbit interaction for the dark excitons, which have not previously been closely investigated. The ability to access the dark exciton spins might offer the possibility of memorizing quantum information in solid state systems.