Revisiting Andromeda's Parachute
Abstract
The gravitational lens system PS J0147+4630 (Andromeda's Parachute) consists of four quasar images ABCD and a lensing galaxy. We obtained -band light curves of ABCD in the 20172021 period from a monitoring with two 2-m class telescopes. These curves and state-of-the-art curve-shifting algorithms led to three independent time delays relative to image A, one of which is accurate enough (uncertainty of about 4%) to be used in cosmological studies. Our finely sampled light curves and some additional fluxes in the years 20102013 also demonstrated the presence of significant microlensing variations. This paper also focused on new near-IR spectra of ABCD in 20182019 that were derived from archive data of two 10-m class telescopes. We analysed the spectral region including the MgII, H, [OIII], and H emission lines (0.92.4 m), measuring image flux ratios and a reliable quasar redshift of 2.357 0.002, and finding evidence of an outflow in the H emission. In addition, we updated the lens mass model of the system and estimated a quasar black-hole logarithmic mass = 9.34 0.30.
Cite
@article{arxiv.2206.09266,
title = {Revisiting Andromeda's Parachute},
author = {Vyacheslav N. Shalyapin and Luis J. Goicoechea and Karianne Dyrland and Hakon Dahle},
journal= {arXiv preprint arXiv:2206.09266},
year = {2023}
}
Comments
v2 is identical to v1. This review of the quad PS J0147+4630 includes the analysis of light curves until early 2021 and near-IR spectra in 2018-2019. It has not been published elsewhere, and now we are updating its sections, e.g., see arXiv:2309.04285 with an updated version of Table 2 (light curves). Tables 4 and 6-7 will be available after publication of the spectroscopic analysis