Improved 21 cm Epoch Of Reionization Power Spectrum Measurements with a Hybrid Foreground Subtraction and Avoidance Technique

Observations of the 21 cm Epoch of Reionization (EoR) signal are dominated by Galactic and extragalactic foregrounds. The need for foreground removal has led to the development of two main techniques, often referred to as "foreground avoidance" and "foreground subtraction". Avoidance is associated with filtering foregrounds in Fourier space, while subtraction uses an explicit foreground model that is removed. Using 1088 hours of data from the 64-element PAPER array, we demonstrate that the techniques can be combined to produce a result that is an improvement over either method independently. Relative to either technique on its own, our approach is shown to decrease the amount of foreground contamination due to band-limited spectral leakage in EoR power spectrum $k$-modes of interest for all redshifts. In comparison to just filtering alone, at $k=0.1 \ h{\rm Mpc}^{-1}$ we obtain a 6% sensitivity improvement at redshift z = 8.4 (middle of observing band) and with the proper choice of window function a 12% improvement at $z = 7.4$ and 24% at $ z = 10.4$ (band edges). We also demonstrate these effects using a smaller 3 hour sampling of data from the MWA, and find that the hybrid filtering and subtraction removal approach provides similar improvements across the band as seen in the case with PAPER-64.