A Continuum of H- to He-Rich Tidal Disruption Candidates With a Preference for E+A Galaxies

TL;DR

This study identifies and characterizes a class of blue nuclear transients, likely resulting from stellar tidal disruptions by supermassive black holes, with a preference for E+A galaxy hosts, expanding understanding of such events.

Contribution

It provides a new sample of tidal disruption candidates with detailed photometric and spectroscopic analysis, highlighting their spectral diversity and host galaxy preferences.

Findings

Three central transients are consistent with tidal disruption events.

All central events occur in low star-formation, E+A galaxy hosts.

Spectral properties of these transients form a continuous scale with known tidal disruption candidates.

Abstract

We present the results of a Palomar Transient Factory (PTF) archival search for blue transients which lie in the magnitude range between "normal" core-collapse and superluminous supernovae (i.e. with $-21\,{\leq}M_{R\,(peak)}\,{\leq}-19$). Of the six events found after excluding all interacting Type~IIn and Ia-CSM supernovae, three (PTF09ge, 09axc and 09djl) are coincident with the centers of their hosts, one (10iam) is offset from the center, and for two (10nuj and 11glr) a precise offset can not be determined. All the central events have similar rise times to the He-rich tidal disruption candidate PS1-10jh, and the event with the best-sampled light curve also has similar colors and power-law decay. Spectroscopically, PTF09ge is He-rich, while PTF09axc and 09djl display broad hydrogen features around peak magnitude. All three central events are in low star-formation hosts, two of which are E+A galaxies. Our spectrum of the host of PS1-10jh displays similar properties. PTF10iam, the one offset event, is different photometrically and spectroscopically from the central events and its host displays a higher star formation rate. Finding no obvious evidence for ongoing galactic nuclei activity or recent star formation, we conclude that the three central transients likely arise from the tidal disruption of a star by a super-massive black hole. We compare the spectra of these events to tidal disruption candidates from the literature and find that all of these objects can be unified on a continuous scale of spectral properties. The accumulated evidence of this expanded sample strongly supports a tidal disruption origin for this class of nuclear transients.