http://arxiv.org/abs/1310.7574
We present a simple gravitational lens model for cosmic voids using the recently developed embedded lensing theory. We use this simple void model to estimate the magnitude fluctuation and the weak lensing shear of background sources lensed by large cosmic voids. Sources behind large cosmic voids can be magnified or demagnified with magnitude fluctuations of order ~0.05 mag. The weak-lensing shear of a large void is at the few percent level, and is only significant in the outer region of the void. We investigate the “wiggling” of the primary cosmic microwave background (CMB) temperature anisotropies caused by intervening individual large cosmic voids using this new void lens model. The wiggling of primary CMB temperature gradients is of the opposite sign to that caused by intervening mass condensations such as galaxy clusters, and is of smaller amplitude, ~15 \mu K for a void of radius ~4 deg at redshift 0.5 assuming a background gradient of magnitude ~10 \mu K/arcmin. Our theory can be used to study gravitational lensing of the CMB by cosmic voids, to probe void dark-matter profiles, as well as to reduce the lensing-induced systematics in supernova Hubble diagrams.
Date added: Wed, 30 Oct 13
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