Astronomy and Astrophysics – Astrophysics
Scientific paper
2001-11-09
Astronomy and Astrophysics
Astrophysics
accepted by the ApJL, discussions about the cosmic variance error made, calculation of the confidence level for the signal add
Scientific paper
We report the first direct observational evidence for alignment of galaxy spin axes with the local tidal shear field. We measure quantitatively the strength of this directional correlation of disk galaxies from the Tully catalog with the local shear field reconstructed from PSCz galaxies. We demonstrate that the null hypothesis of random galaxy alignments relative to the shear frame can be ruled out more than 99.98 % confidence. The observed intrinsic correlation averaged over the censored samples that have detected non-zero signals is measured in terms of the alignment parameter 'a=0.17 +/- 0.04', which includes only statistical errors of the censored data, but not the cosmic variance error. The reconstruction procedure is likely to underestimates 'a' systematically. Our result is consistent with the linear tidal torque model, and supports the idea that the present galaxy spins may be used as a probe of primordial tidal shear and mass density fields. The intrinsic alignments of galaxy spins dominate over weak gravitational lensing for shallow surveys such like SDSS, while it should be negligible for deeper surveys at z ~ 1.
Lee Jounghun
Pen U.-L.
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