Sifting for Sapphires: Systematic Selection of Tidal Disruption Events in iPTF

TL;DR

This study systematically selects and classifies tidal disruption events (TDEs) in a large sky area using photometric and follow-up observations, providing a rate estimate and methods to distinguish TDEs from other nuclear transients.

Contribution

It introduces a refined selection method for TDEs in wide-area surveys and evaluates contamination sources, improving real-time identification for future surveys.

Findings

Identified 2 confirmed TDEs among 26 nuclear transients.

Developed criteria to effectively filter AGNs and supernovae from TDE candidates.

Estimated TDE rate per galaxy as 1.7×10^{-4} yr^{-1} with uncertainties.

Abstract

We present results from a systematic selection of tidal disruption events (TDEs) in a wide-area (4800~deg$^2$), $g+R$ band, Intermediate Palomar Transient Factory (iPTF) experiment. Our selection targets typical optically-selected TDEs: bright ($>$60\% flux increase) and blue transients residing in the center of red galaxies. Using photometric selection criteria to down-select from a total of 493 nuclear transients to a sample of 26 sources, we then use follow-up UV imaging with the Neil Gehrels Swift Telescope, ground-based optical spectroscopy, and light curve fitting to classify them as 14 Type Ia supernovae (SNe Ia), 9 highly variable active galactic nuclei (AGNs), 2 confirmed TDEs, and 1 potential core-collapse supernova. We find it possible to filter AGNs by employing a more stringent transient color cut ($g-r <$ $-$0.2 mag); further, UV imaging is the best discriminator for filtering SNe, since SNe Ia can appear as blue, optically, as TDEs in their early phases. However, when UV-optical color is unavailable, higher precision astrometry can also effectively reduce SNe contamination in the optical. Our most stringent optical photometric selection criteria yields a 4.5:1 contamination rate, allowing for a manageable number of TDE candidates for complete spectroscopic follow-up and real-time classification in the ZTF era. We measure a TDE per galaxy rate of 1.7$^{+2.9}_{-1.3}$ $\times$10$^{-4}$ gal$^{-1}$ yr$^{-1}$ (90\% CL in Poisson statistics). This does not account for TDEs outside our selection criteria, thus may not reflect the total TDE population, which is yet to be fully mapped.