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We describe a practical measurement of the curvature of the Universe which, unlike current constraints, relies purely on the properties of the Robertson-Walker metric rather than any assumed model for the dynamics and content of the Universe. The observable quantity is the cross-correlation between foreground mass and gravitational shear of background galaxies, which depends upon the angular diameter distances dA(zℓ), dA(zs), and dA(zs,zℓ) on the degenerate triangle formed by observer, source, and lens. In a flat Universe, dA(zℓ,zs) = dA(zs) − dA(zℓ), but in curved Universes an additional term ∝ Ωk appears and alters the lensing observables even if dA(z) is fixed. We describe a method whereby weak lensing data may be used to solve simultaneously for dA and the curvature. This method is completely insensitive to the equation of state of the contents of the Universe, or amendments to General Relativity that alter the gravitational deflection of light or the growth of structure. The curvature estimate is also independent of biases in the photometric redshift scale. This measurement is shown to be subject to a degeneracy among dA, Ωk and the galaxy bias factors that may be
G. M. Bernstein (Wed,) studied this question.