## Abstract

We investigate the impact of the observed correlation between a galaxy's shape and its surrounding density field on the measurement of third-order weak lensing shear statistics. Using numerical simulations, we estimate the systematic error contribution to a measurement of the third-order moment of the aperture mass statistic (GGG) from three-point intrinsic ellipticity correlations (III), and the three-point Coupling between the weak lensing, shear experienced by distant galaxies and the shape of foreground galaxies (GGI and GII). We find that third-order weak lensing statistics are typically more strongly contaminated by these physical systematics compared to second-order shear measurements, contaminating the measured three-point signal for moderately deep surveys with a median redshift z(m) similar to 0.7 by similar to 15 per cent. It has been shown that accurate photometric redshifts will be Crucial to correct for this effect, once a model and the redshift dependence of the effect can be accurately constrained. To this end we provide redshift-dependent fitting functions to our results and propose a new tool for the observational study of intrinsic galaxy alignments. For a shallow survey with z(m) similar to 0.4 we find III to be an order of magnitude larger than the expected cosmological GGG shear signal. Compared to the two-point intrinsic ellipticity correlation which is similar in amplitude to the two-point shear signal at these survey depths, third-order statistics therefore offer a promising new way to constrain models of intrinsic galaxy alignments. Early shallow data from the next generation of very wide weak lensing surveys will be optimal for this type of study.

Original language | English |
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Pages (from-to) | 991-1000 |

Number of pages | 10 |

Journal | Monthly Notices of the Royal Astronomical Society |

Volume | 388 |

Issue number | 3 |

DOIs | |

Publication status | Published - 11 Aug 2008 |

## Keywords

- gravitational lensing
- cosmology : theory
- large-scale structure of Universe
- INTRINSIC GALAXY ALIGNMENTS
- COSMIC SHEAR STATISTICS
- COSMOLOGICAL CONSTRAINTS
- TELESCOPE
- SPACE
- BISPECTRUM
- SIGMA(8)
- COMBO-17
- OMEGA(M)
- DENSITY