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The 21 cm brightness temperature T ₁ fluctuations from reionization promise to provide information on the physical processes during that epoch. We present a formalism for generating the T ₁ distribution using dark matter simulations and an one-dimensional radiative transfer code. Our analysis is able to account for the spin temperature T ₒ fluctuations arising from inhomogeneous X-ray heating and Ly coupling during cosmic dawn. The T ₁ power spectrum amplitude at large scales (k 0. 1 Mpc^-1) is maximum when 10\% of the gas (by volume) is heated above the CMB temperature. The power spectrum shows a "bump"-like feature during cosmic dawn and its location measures the typical sizes of heated regions. We find that the effect of peculiar velocities on the power spectrum is negligible at large scales for most part of the reionization history. During early stages (when the volume averaged ionization fraction 0. 2) this is because the signal is dominated by fluctuations in T ₒ. For reionization models that are solely driven by stars within high mass (10⁹\, M_) haloes, the peculiar velocity effects are prominent only at smaller scales (k 0. 4 Mpc^-1) where patchiness in the neutral hydrogen density dominates the signal. The conclusions are unaffected by changes in the amplitude or steepness in the X-ray spectra of the sources.
Ghara et al. (Fri,) studied this question.
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