To include the full non-Gaussian information about cosmology and the large-scale structure from measurements of weak gravitational lensing, one needs to go beyond second-order correlations. In my talk I first show results from the aperture-mass skewness, a measure of the weak-lensing bispectrum, using data from CFHTLenS (Canada-France Hawaii Lensing Survey). I then focus on weak-lensing peak counts, an indirect probe of the halo mass function. I present a new fast and flexible model of peak counts. This model allows us to use new statistical inference methods that do not require assumptions about the functional form of the likelihood of the observables, e.g. Gaussianity. In particular, I will present results using Approximate Bayesian Computation (ABC), a new technique that has recently gained momentum in the astrophysics community.
Weak gravitational lensing: higher-order statistics and new inference approaches
Martin Kilbinger (CEA, Paris)
Tuesday, 27 March 2018