Uncertainty quantification is a crucial step of cosmological mass-mapping that is often ignored. Suggested methods are typically only approximate or make strong assumptions of Gaussianity of the shear field. Probabilistic sampling methods, such as Markov chain Monte Carlo (MCMC), draw samples form a probability distribution, allowing for full and flexible uncertainty quantification, however these methods are notoriously slow and struggle in the high-dimensional parameter spaces of imaging problems. In this work we use, for the first time, a trans-dimensional MCMC sampler for mass-mapping, promoting sparsity in a wavelet basis. This sampler gradually grows the parameter space as required by the data, exploiting the extremely sparse nature of...
The power spectrum of the nonlinearly evolved large-scale mass distribution recovers only a minority...
Mapping the underlying density field, including non-visible dark matter, using weak gravitational le...
Mapping the underlying density field, including non-visible dark matter, using weak gravitational le...
Weak lensing mass-mapping is a useful tool to access the full distribution of dark matter on the sky...
Context. Weak lensing mass-mapping is a useful tool for accessing the full distribution of dark matt...
A crucial aspect of mass mapping, via weak lensing, is quantification of the uncertainty introduced ...
Until recently, mass-mapping techniques for weak gravitational lensing convergence reconstruction ha...
Weak lensing convergence maps – upon which higher order statistics can be calculated – can be recove...
Aims. We introduce a novel approach to reconstructing dark matter mass maps from weak gravitational ...
International audienceAims. We introduce a novel approach to reconstructing dark matter mass maps fr...
Weak gravitational lensing provides a unique way of mapping directly the dark matter in the Universe...
We present KaRMMa, a novel method for performing mass map reconstruction from weak-lensing surveys. ...
Gravitational lensing, that is the distortion of the images of distant galaxies by intervening massi...
The power spectrum of the nonlinearly evolved large-scale mass distribution recovers only a minority...
Mapping the underlying density field, including non-visible dark matter, using weak gravitational le...
Mapping the underlying density field, including non-visible dark matter, using weak gravitational le...
Weak lensing mass-mapping is a useful tool to access the full distribution of dark matter on the sky...
Context. Weak lensing mass-mapping is a useful tool for accessing the full distribution of dark matt...
A crucial aspect of mass mapping, via weak lensing, is quantification of the uncertainty introduced ...
Until recently, mass-mapping techniques for weak gravitational lensing convergence reconstruction ha...
Weak lensing convergence maps – upon which higher order statistics can be calculated – can be recove...
Aims. We introduce a novel approach to reconstructing dark matter mass maps from weak gravitational ...
International audienceAims. We introduce a novel approach to reconstructing dark matter mass maps fr...
Weak gravitational lensing provides a unique way of mapping directly the dark matter in the Universe...
We present KaRMMa, a novel method for performing mass map reconstruction from weak-lensing surveys. ...
Gravitational lensing, that is the distortion of the images of distant galaxies by intervening massi...
The power spectrum of the nonlinearly evolved large-scale mass distribution recovers only a minority...
Mapping the underlying density field, including non-visible dark matter, using weak gravitational le...
Mapping the underlying density field, including non-visible dark matter, using weak gravitational le...