# Extreme variability quasars from the Sloan Digital Sky Survey and the   Dark Energy Survey

**Authors:** Nick Rumbaugh, Yue Shen, Eric Morganson, Xin Liu, Manda Banerji,, Richard G. McMahon, Filipe Abdalla, Aurelien Benoit-Levy, Emmanuel Bertin,, David Brooks, Elizabeth Buckley-Geer, Diego Capozzi, Aurelio Carnero Rosell,, M. Carrasco Kind, Jorge Carretero, Carlos Cunha, Chris D'Andrea, Luiz da, Costa, Darren DePoy, Shantanu Desai, Peter Doel, Joshua Frieman, Juan, Garcia-Bellido, Daniel Gruen, Robert Gruendl, Julia Gschwend, Gaston, Gutierrez, Klaus Honscheid, David James, Kyler Kuehn, Steve Kuhlmann, Nikolay, Kuropatkin, Marcos Lima, Marcio Maia, Jennifer Marshall, Paul Martini, Felipe, Menanteau, Andres Plazas Malagon, Kevin Reil, Aaron Roodman, Eusebio Sanchez,, Vic Scarpine, Rafe Schindler, Michael Schubnell, Erin Sheldon, Mathew Smith,, Marcelle Soares-Santos, Flavia Sobreira, Eric Suchyta, Molly Swanson,, Alistair Walker, William Wester

arXiv: 1706.07875 · 2018-02-28

## TL;DR

This study systematically identifies approximately 1000 extreme variability quasars (EVQs) over 15 years using SDSS and DES data, revealing their distinct properties and suggesting accretion instabilities as a key driver of their variability.

## Contribution

It provides the first large-scale, multi-wavelength analysis of EVQs, characterizing their properties and proposing a physical mechanism for their extreme variability.

## Key findings

- EVQs constitute about 30-50% of quasars over 15 years.
- EVQs have larger UV broad emission lines and lower Eddington ratios.
- EVQs are more variable across all timescales.

## Abstract

We perform a systematic search for long-term extreme variability quasars (EVQs) in the overlapping Sloan Digital Sky Survey (SDSS) and 3-Year Dark Energy Survey (DES) imaging, which provide light curves spanning more than 15 years. We identified ~1000 EVQs with a maximum g band magnitude change of more than 1 mag over this period, about 10% of all quasars searched. The EVQs have L_bol~10^45-10^47 erg/s and L/L_Edd~0.01-1. Accounting for selection effects, we estimate an intrinsic EVQ fraction of ~30-50% among all g<~22 quasars over a baseline of ~15 years. These EVQs are good candidates for so-called "changing-look quasars", where a spectral transition between the two types of quasars (broad-line and narrow-line) is observed between the dim and bright states. We performed detailed multi-wavelength, spectral and variability analyses for the EVQs and compared to their parent quasar sample. We found that EVQs are distinct from a control sample of quasars matched in redshift and optical luminosity: (1) their UV broad emission lines have larger equivalent widths; (2) their Eddington ratios are systematically lower; and (3) they are more variable on all timescales. The intrinsic difference in quasar properties for EVQs suggest that internal processes associated with accretion are the main driver for the observed extreme long-term variability. However, despite their different properties, EVQs seem to be in the tail of a continuous distribution of quasar properties, rather than standing out as a distinct population. We speculate that EVQs are normal quasars accreting at relatively low accretion rates, where the accretion flow is more likely to experience instabilities that drive the factor of few changes in flux on multi-year timescales.

## Full text

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## Figures

25 figures with captions in the complete paper: https://tomesphere.com/paper/1706.07875/full.md

## References

98 references — full list in the complete paper: https://tomesphere.com/paper/1706.07875/full.md

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Source: https://tomesphere.com/paper/1706.07875