Abstract
Multifrequency measurements of the microwave sky can be decomposed into maps of distinct physical components such as the cosmic microwave background (CMB) and the Sunyaev-Zeldovich (SZ) effect. Each of the multifrequency measurements is a convolution of the spectrum on the sky with the bandpass of the instrument. Here we analytically calculate the contamination of the component maps that can result from errors in our knowledge of the bandpass shape. We find, for example, that for Planck an unknown 10% ramp across each band results in a CMB map δT = δTCMB - 4.3 × 10-3δTSZ plus the usual statistical noise. The variance of this contaminant is more than a factor of 100 below the noise variance at all angular scales and even further below the CMB signal variance. This contamination might lead to an error in the velocity of rich clusters inferred from the kinetic SZ effect; however, the error is negligible, (50 km s-1), if the bandpass is known to 10%. Bandpass errors might be important for future missions measuring the CMB-SZ effect correlation.
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