Integrated Sachs-Wolfe effect in cross-correlation: The observer's manual

The Integrated Sachs-Wolfe (ISW) effect is a direct signature of the presence of dark energy in the universe, in the absence of spatial curvature. A powerful method for observing the ISW effect is through cross-correlation of the cosmic microwave background with a tracer of the matter in the low redshift universe. In this paper, we describe the dependence of the obtained cross-correlation signal on the geometry and other properties of a survey of the low redshift universe. We show that an all-sky survey with about 1010^6 galaxies, almost uniformly distributed within 0<z<1 should yield a near optimal ISW detection, at 5 level. In order to achieve this level of signal-to-noise, the systematic anisotropies in the survey must be below 0. 1%, on the scale of 10^ on the sky, while the systematic error in redshift estimates must be less than 0. 05. Then, we argue that, while an ISW detection will not be a good way of constraining the conventional properties of dark energy, it could be a valuable means of testing alternative theories of gravity on large physical scales.