Abstract
Abstract Because follow–up observations of quadruple gravitational lens systems are of extraordinary importance for astrophysics and cosmology, we present single-epoch optical spectra and r-band light curves of PS J0147+4630. This recently discovered system mainly consists of four images ABCD of a background quasar around a foreground galaxy G that acts as a gravitational lens. First, we use long-slit spectroscopic data in the Gemini Observatory Archive and a multi-component fitting to accurately resolve the spectra of A, D, and G. The spectral profile of G resembles that of an early-type galaxy at a redshift of 0.678 ± 0.001, which is about 20% higher than the previous estimate. Additionally, the stellar velocity dispersion is measured to ∼5% precision. Second, our early r-band monitoring with the Liverpool Telescope leads to accurate light curves of the four quasar images. Adopting time delays predicted by the lens model, the new lens redshift, and a standard cosmology, we report the detection of microlensing variations in C and D as large as ∼0.1 mag on timescales of a few hundred days. We also estimate an actual delay between A and B of a few days (B is leading), which demonstrates the big potential of optical monitoring campaigns of PS J0147+4630.
Highlights
Optical light curves of the four images of a quadruple gravitationally lensed quasar have a great potential to reveal physical properties of the lensed quasar, the main lensing galaxy, and the Universe as a whole
Because follow–up observations of quadruple gravitational lens systems are of extraordinary importance for astrophysics and cosmology, we present single–epoch optical spectra and r–band light curves of PS J0147+4630
Adopting time delays predicted by the lens model, the new lens redshift, and a standard cosmology, we report the detection of microlensing variations in C and D as large as ∼0.1 mag on timescales of a few hundred days
Summary
Optical light curves of the four images of a quadruple gravitationally lensed quasar (quad) have a great potential to reveal physical properties of the lensed quasar, the main lensing galaxy, and the Universe as a whole. In addition to accurate time delays, the redshift and stellar velocity dispersion of the main lensing galaxy (and the properties of the lens environment) are required to obtain strong constraints on cosmological parameters (e.g., Suyu et al 2017). The Gravitational LENses and DArk MAtter (GLENDAMA) project is conducting optical observations of a sample of ten lensed quasars with bright images (r < 20 mag) at 1 < z < 3 (Gil-Merino et al 2018). This representative sample includes the quad PS J0147+4630, which is being monitored with the 2.0 m Liverpool Telescope (LT) since 2017 August.
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