Constraining warm dark matter power spectrum using the cross-correlation of HI 21 cm signal and the Lyman-α forest

Abstract

We have considered the prospects for measuring the cross Warm Dark Matter (WDM) power spectrum of the redshifted HI 21-cm signal and the Lyman-α forest and thereby constraining WDM mass using observations with upcoming radio-interferometers - the Ooty Wide Field Array (OWFA) and SKA1-mid, and a spectroscopic survey of the quasars. We have considered a quasar survey with a mean observed quasar number density of n Q = 48 deg-2 over a collecting area of 14455 deg2, and a mean spectroscopic SNR = 5. Our analysis with OWFA shows that it is possible to measure the WDM power spectrum in several k-bins at k < 0.4 Mpc-1 with SNR > 5 using an observation of 200 hours each in 100 different fields-of-view for m WDM = 0.25 keV. Considering the possibility of the joint measurement of the parameters, the warm dark matter density parameter WDM, and the dark energy density parameter 0, we find that the relative error on the 1-σ measurement of the parameter WDM is 0.8 for a fiducial m WDM = 0.25 keV. We further find that it is possible to have a measurement of the suppression of power from the Cold Dark Matter (CDM) power spectrum at a confidence level of 7.2-σ and 2.7-σ in two different k-bins over the k-range 0.1 ≤ k ≤ 3.13 Mpc-1 for m WDM = 0.15 keV. Considering the analysis with SKA1-mid, we find that for a fiducial m WDM= 0.25 keV, the suppression in the cross power spectrum can be measured at 10 - σ around k 0.2 Mpc-1 for a total observing time of 20000 hrs distributed uniformly over 50 independent pointings where the available k-range is binned as k = k/5.