New database for a sample of optically bright lensed quasars in the northern hemisphere

Gil-Merino, R.; Goicoechea, L. J.; Shalyapin, V. N.; Oscoz, A.

doi:10.1051/0004-6361/201832737

Cited by 21 publications

(36 citation statements)

References 167 publications

(251 reference statements)

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“…where J y stands for Jansky. For more information about the light curves used in this study, refer to Gil-Merino et al (2018), Shalyapin et al (2012), and Goicoechea et al (2008).…”

Section: Data Collection: Light Curvesmentioning

confidence: 99%

“…Though quasars, in general, are known by their extremely high luminosities, gravitationally lensed quasars (hereinafter GLQs) are brighter than their unlensed counterparts and produce different image components Agnello et al (2015). Study of GLQs provides significant information, mainly about background source quasar variability mechanisms and accretion disk structure (Jiménez-Vicente et al 2015;Pooley et al 2007), the mass distribution in lensing galaxies (Bate et al 2008) and, in general, information to constrain physical properties of the Universe (Gil-Merino et al 2018;Kostrzewa-Rutkowska et al 2018). It has been understood that the time delay caused by gravitational lensing is directly related to the current expansion rate of the Universe (the Hubble constant) and the mean surface mass density of E-mail: asnakew@fisica.ufrn.br the lensing galaxy (e.g., Kochanek & Schechter 2004;Refsdal 1964).…”

Section: Introductionmentioning

confidence: 99%

“…Though Shalyapin et al (2012) considered a dense cloud within the cD lensing galaxy along the line of sight to the image A as a possible cause for a 3 d lag between optical bands, this lag relies on standard cross-correlation techniques that could lead to biased results, so the true time delay ∆t B A is most likely achromatic (Gil-Merino et al 2018). Even though no microlensing effects have been detected in the light curves of the lensed quasar Q0957+561 over several decades, strong evidence for extrinsic variability was found in the initial and last years of monitoring, as reported in Pelt et al (1998) and Gil-Merino et al (2018). Here, we study the multifractal (nonlinear) behaviour of the optical observations of the lensed quasar Q0957+561 in the r and g bands separately.…”

Section: Introductionmentioning

confidence: 99%

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Revealing the non-linear behaviour of the lensed quasar Q0957+561

Belete

Martins

Leão

et al. 2019

Monthly Notices of the Royal Astronomical Society

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Knowledge about how the nonlinear behaviour of the intrinsic signal from lensed background sources changes on its path to the observer provides much information, particularly about the matter distribution in lensing galaxies and the physical properties of the current universe, in general. Here, we analyse the multifractal (nonlinear) behaviour of the optical observations of A and B images of Q0957+561 in the r and g bands. AIMS: To verify the presence, or absence, of extrinsic variations in the observed signals of the quasar images and investigate whether extrinsic variations affect the multifractal behaviour of their intrinsic signals. METHOD: We apply a wavelet transform modulus maxima-based multifractality analysis approach. RESULTS: We detect strong multifractal (nonlinear) signatures in the light curves of the quasar images. The degree of multifractality for both images in the r band changes over time in a non-monotonic way, possibly indicating the presence of extrinsic variabilities in the light curves of the images, i.e., the signals of the quasar images are a combination of both intrinsic and extrinsic signals. Additionally, in the r band, in periods of quiescent microlensing activity, we find that the degree of multifractality (nonlinearity) of image A is stronger than that of B, while B has a larger multifractal strength in recent epochs (from day 5564 to day 7527) when it appears to be affected by microlensing. Finally, comparing the optical bands in a period of quiescent microlensing activity, we find that the degree of multifractality is stronger in the r band for both quasar images. In the absence of microlensing, the observed excesses of nonlinearity are most likely generated when the broad-line region (BLR) reprocesses the radiation from the compact sources.

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“…where J y stands for Jansky. For more information about the light curves used in this study, refer to Gil-Merino et al (2018), Shalyapin et al (2012), and Goicoechea et al (2008).…”

Section: Data Collection: Light Curvesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Revealing the non-linear behaviour of the lensed quasar Q0957+561

Belete

Martins

Leão

et al. 2019

Monthly Notices of the Royal Astronomical Society

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show abstract

“…The difference light curves for C and D include ∼0.1 mag fluctuations over timescales from 100 to 400 days. Some other quads show similar levels of microlensing activity (e.g., Fian et al 2018;Gil-Merino et al 2018). We remark that microlensing signals in the D image rely on time delays ∆t AD predicted by the Shajib et al's mass model and plausible values of H 0 .…”

Section: What Can We Learn From Early Light Curves Of the Lensed Quasar?mentioning

confidence: 54%

Gravitational Lens System PS J0147+4630 (Andromeda’s Parachute): Main Lensing Galaxy and Optical Variability of the Quasar Images

Goicoechea

Shalyapin

2019

ApJ

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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.

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“…This paper is dedicated to describe and deeply analyse follow-up observations of SDSS J1442+4055. In the framework of the Gravitational LENses and DArk MAtter (GLENDAMA) project (Gil-Merino et al 2018), in Section 2, we present a 2.7-year photometric monitoring with the 2.0 m Liverpool Telescope (LT) in the r band and associated light curves for both quasar images, as well as spectroscopic observations with the 10.4 m Gran Telescopio Canarias (GTC) and the LT. The high signal-to-noise ratio (SNR) spectroscopy over a wide wavelength interval with the GTC allows us to accurately identify the primary lensing galaxy G1, while we use the LT spectroscopic data of two bright secondary galaxies (G2 and another object in the field around the quasar) to measure their redshifts.…”

Section: Introductionmentioning

confidence: 99%

Gravitationally Lensed Quasar SDSS J1442+4055: Redshifts of Lensing Galaxies, Time Delay, Microlensing Variability, and Intervening Metal System at z ∼ 2

Shalyapin

Goicoechea

2019

ApJ

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We present an r-band photometric monitoring of the two images A and B of the gravitationally lensed quasar SDSS J1442+4055 using the Liverpool Telescope (LT). From the LT light curves between 2015 December and 2018 August, we derive at once a time delay of 25.0 ± 1.5 days (1σ confidence interval; A is leading) and microlensing magnification gradients below 10 −4 mag day −1 . The delay interval is not expected to be affected by an appreciable microlensing-induced bias, so it can be used to estimate cosmological parameters. This paper also focuses on new Gran Telescopio Canarias (GTC) and LT spectroscopic observations of the lens system. We determine the redshift of two bright galaxies around the doubly imaged quasar using LT spectroscopy, while GTC data lead to low-noise individual spectra of A, B, and the main lensing galaxy G1. The G1 spectral shape is accurately matched to an earlytype galaxy template at z = 0.284, and it has potential for further relevant studies. Additionally, the quasar spectra show absorption by metal-rich gas at z ∼ 2. This dusty absorber is responsible for an extinction bump at a rest-frame wavelength of 2209 ± 2Å, which has strengths of ∼ 0.47 and 0.76 mag µm −1 for A and B, respectively. In such intervening system, the dust-to-gas ratio, gas-phase metallicity indicator [Zn/H], and dust depletion level [Fe/Zn] are relatively high.

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New database for a sample of optically bright lensed quasars in the northern hemisphere

Cited by 21 publications

References 167 publications

Revealing the non-linear behaviour of the lensed quasar Q0957+561

Revealing the non-linear behaviour of the lensed quasar Q0957+561

Gravitational Lens System PS J0147+4630 (Andromeda’s Parachute): Main Lensing Galaxy and Optical Variability of the Quasar Images

Gravitationally Lensed Quasar SDSS J1442+4055: Redshifts of Lensing Galaxies, Time Delay, Microlensing Variability, and Intervening Metal System at z ∼ 2

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