Testing Gravity Against Early Time Integrated Sachs-Wolfe Effect
Abstract
A generic prediction of general relativity is that the cosmological linear density growth factor D is scale independent. But in general, modified gravities do not preserve this signature. A scale dependent D can cause time variation in gravitational potential at high redshifts and provides a new cosmological test of gravity, through early time integrated Sachs-Wolfe (ISW) effect-large scale structure (LSS) cross correlation. We demonstrate the power of this test for a class of f(R) gravity, with the form f(R)=-λ1 H02(-R/λ2H02). Such f(R) gravity, even with degenerate expansion history to , can produce detectable ISW effect at z 3 and l 20. Null-detection of such effect would constrain λ2 to be λ2>1000 at >95% confidence level. On the other hand, robust detection of ISW-LSS cross correlation at high z will severely challenge general relativity.
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