Current searches for a dark photon in the mass range below 1 GeV require an electron-positron collider with a luminosity at the level of at least \(10^{34}\) cm\(^{-2}\)s\(^{-1}\). The challenge is that, at such low energies, the collider luminosity rapidly drops off due to increase in the beam sizes, strong mutual focusing of the colliding beams, and enhancement of collective effects. Using recent advances in accelerator technology such as the nano-beam scheme of SuperKEK-B, high-current Energy Recovery Linacs (ERL), and magnetized beams, we propose a new configuration of an electron-positron collider based on a positron storage ring and an electron ERL. It allows one to achieve a luminosity of \(>10^{34}\) cm\(^{-2}\)s\(^{-1}\) at the center of momentum energy of <1 GeV. We present general considerations and a specific example of such a facility using the parameters of the SuperKEK-B positron storage ring and Cornell ERL project.