The first shear measurements from precision weak lensing
Abstract
We present an end-to-end methodology to measure the effects of weak lensing on individual galaxy-galaxy systems exploiting their kinematic information. Using this methodology, we have measured a shear signal from the velocity fields of 18 weakly-lensed galaxies. We selected a sample of systems based only on the properties of the sources, requiring them to be bright (apparent -band magnitude ) and in the nearby Universe (). We have observed the velocity fields of the sources with WiFeS, an optical IFU on a 2.3m telescope, and fitted them using a simple circular motion model with an external shear. We have measured an average shear of compared to a predicted obtained using median stellar-to-halo relationships from the literature. While still a statistical approach, our results suggest that this new weak lensing methodology can overcome some of the limitations of traditional stacking-based techniques. We describe in detail all the steps of the methodology and make publicly available all the velocity maps for the weakly-lensed sources used in this study.
Cite
@article{arxiv.2009.10067,
title = {The first shear measurements from precision weak lensing},
author = {Pol Gurri and Edward N. Taylor and Christopher J. Fluke},
journal= {arXiv preprint arXiv:2009.10067},
year = {2020}
}