2,272 research outputs found
VLASS tidal disruption events with optical flares II: discovery of two TDEs with intermediate width Balmer emission lines and connections to the ambiguous extreme coronal line emitters
The multiwavelength properties of radio-emitting tidal disruption events
(TDEs) are poorly understood. In a previous paper, we presented the first
sample of radio-selected, optically-detected TDEs, which included two events
(VT J1008 and VT J2012) associated with late-time ( years post-optical
flare) intermediate with emission lines that are largely unprecedented from
TDEs. In this paper, we investigate these two events in detail. The
multiwavelength properties of these events are otherwise consistent with
optically-selected TDEs. They are hosted by green valley, E+A/Balmer dominated
galaxies with low star formation rates and black holes masses . The optical flare shapes are fully consistent
with those of optically-selected TDEs, although they are slightly faint and
cool at peak. The radio emission from both events is consistent with
wide-angle, non-relativistic outflows with erg
s. Balmer and Helium emission lines are detected from both events with
full-width-half-maxima km s and asymmetric line profiles. VT
J1008 additionally shows coronal line emission with a similar width. The lines
from VT J2012 are redshifted by km s relative to the host
galaxy. We show that these events share many characteristics in common with the
ambiguous class of extreme coronal line emitters. We argue that the lines are
likely associated with a radiative shock or dense, photoionized clumps of
outflowing gas in the circumnuclear medium.Comment: 18 pages, 6 figures, submitted to Ap
VLASS tidal disruption events with optical flares I: the sample and a comparison to optically-selected TDEs
In this work, we use the Jansky VLA Sky Survey (VLASS) to compile the first
sample of six radio-selected tidal disruption events (TDEs) with transient
optical counterparts. While we still lack the statistics to do detailed
population studies of radio-selected TDEs, we use these events to suggest
trends in host galaxy and optical light curve properties that may correlate
with the presence of radio emission, and hence can inform optically-selected
TDE radio follow-up campaigns. We find that radio-selected TDEs tend to have
faint and cool optical flares, as well as host galaxies with low SMBH masses.
Our radio-selected TDEs also tend to have more energetic, larger radio emitting
regions than radio-detected, optically-selected TDEs. We consider possible
explanations for these trends, including by invoking super-Eddington accretion
and enhanced circumnuclear media. Finally, we constrain the radio-emitting TDE
rate to be Gpc yr.Comment: 26 pages, 5 tables, 11 figures, submitted to Ap
A candidate relativistic tidal disruption event at 340 Mpc
We present observations of an extreme radio flare, VT J024345.70-284040.08,
hereafter VT J0243, from the nucleus of a galaxy with evidence for historic
Seyfert activity at redshift . Between NRAO VLA Sky Survey
observations in 1993 to VLA Sky Survey observations in 2018, VT J0243 rose from
a GHz radio luminosity of erg s to
erg s, and still continues to brighten. The
radio spectral energy distribution (SED) evolution is consistent with a nascent
jet that has slowed over days with an average . The jet is energetic ( erg), and had a radius
pc in Dec. 2021. X-ray observations suggest a persistent or
evolving corona, possibly associated with an accretion disk, and IR and optical
observations constrain any high-energy counterpart to be sub-Eddington. VT
J0243 may be an example of a young, off-axis radio jet from a slowly evolving
tidal disruption event. Other more mysterious triggers for the accretion
enhancement and jet launching are possible. In either case, VT J0243 is a
unique example of a nascent jet, highlighting the unknown connection between
supermassive black holes, the properties of their accretion flows, and jet
launching.Comment: 20 pages, 5 figures, 3 tables. Submitted to Ap
The first systematically identified repeating partial tidal disruption event
Tidal disruption events (TDEs) occur when a star enters the tidal radius of a
supermassive black hole (SMBH). If the star only grazes the tidal radius, a
fraction of the stellar mass will be accreted in a partial TDE (pTDE). The
remainder can continue orbiting and may re-disrupted at pericenter, causing a
repeating pTDE. pTDEs may be as or more common than full TDEs (fTDEs), yet few
are known. In this work, we present the discovery of the first repeating pTDE
from a systematically-selected sample, AT\,2020vdq. AT\,2020vdq was originally
identified as an optically- and radio-flaring TDE. Around years after its
discovery, it rebrightened dramatically and rapidly in the optical. The optical
flare was remarkably fast and luminous compared to previous TDEs. It was
accompanied by extremely broad () optical/UV spectral features and
faint X-ray emission (\,erg\,s), but no new
radio-emitting component. Based on the transient optical/UV spectral features
and the broadband light curve, we show that AT\,2020vdq is a repeating pTDE. We
then use it to constrain TDE models; in particular, we favor a star originally
in a very tight binary system that is tidally broken apart by the Hills
mechanism. We also constrain the repeating pTDE rate to be to
yr galaxy, with uncertainties dominated by the unknown
distribution of pTDE repeat timescales. In the Hills framework, this means the
binary fraction in the galactic nucleus is of the order few percent.Comment: 24 pages, 13 figures, submitted to Ap
Deep Synoptic Array Science: Polarimetry of 25 New Fast Radio Bursts Provides Insights into their Origins
We report on a full-polarization analysis of the first 25 as yet
non-repeating FRBs detected at 1.4 GHz by the 110-antenna Deep Synoptic Array
(DSA-110) during commissioning observations. We present details of the data
reduction, calibration, and analysis procedures developed for this novel
instrument. The data have 32 s time resolution and sensitivity to Faraday
rotation measures (RMs) between rad m. RMs are detected for
20 FRBs with magnitudes ranging from rad m. FRBs are
found to have high () linear-polarization fractions. The remaining
FRBs exhibit significant circular polarization (), or are either
partially depolarized () or unpolarized (). We investigate the
mechanism of depolarization, disfavoring stochastic RM variations within a
scattering screen as a dominant cause. Polarization-state and possible RM
variations are observed in the four FRBs with multiple sub-components, but only
one other FRB shows a change in polarization state. We combine the DSA-110
sample with polarimetry of previously published FRBs, and compare the
polarization properties of FRB sub-populations and FRBs with Galactic pulsars.
Although FRBs are typically far more polarized than the average profiles of
Galactic pulsars, and exhibit greater spread in polarization fractions than
pulsar single pulses, we find a remarkable similarity between FRB polarization
fractions and the youngest (characteristic ages yr) pulsars. Our
results support a scenario wherein FRB emission is intrinsically highly
linearly polarized, and where propagation effects within progenitor
magnetospheres can result in conversion to circular polarization and
depolarization. Young pulsar emission and magnetospheric-propagation geometries
may form a useful analogy for the origin of FRB polarization.Comment: 43 pages, 17 figure
Deep Synoptic Array Science: Implications of Faraday Rotation Measures of Localized Fast Radio Bursts
Faraday rotation measures (RMs) of fast radio bursts (FRBs) offer the
prospect of directly measuring extragalactic magnetic fields. We present an
analysis of the RMs of ten as yet non-repeating FRBs detected and localized to
host galaxies by the 110-antenna Deep Synoptic Array (DSA-110). We combine this
sample with published RMs of 15 localized FRBs, nine of which are repeating
sources. For each FRB in the combined sample, we estimate the host-galaxy
dispersion measure (DM) contributions and extragalactic RM. We find compelling
evidence that the extragalactic components of FRB RMs are often dominated by
contributions from the host-galaxy interstellar medium (ISM). Specifically, we
find that both repeating and as yet non-repeating FRBs show a correlation
between the host-DM and host-RM in the rest frame, and we find an
anti-correlation between extragalactic RM (in the observer frame) and redshift
for non-repeaters, as expected if the magnetized plasma is in the host galaxy.
Important exceptions to the ISM origin include a dense, magnetized circum-burst
medium in some repeating FRBs, and the intra-cluster medium (ICM) of host or
intervening galaxy clusters. We find that the estimated ISM magnetic-field
strengths, , are characteristically larger than those inferred from
Galactic radio pulsars. This suggests either increased ISM magnetization in FRB
hosts in comparison with the Milky Way, or that FRBs preferentially reside in
regions of increased magnetic-field strength within their hosts
Tidal Disruption Event Demographics with the Zwicky Transient Facility: Volumetric Rates, Luminosity Function, and Implications for the Local Black Hole Mass Function
We conduct a systematic tidal disruption event (TDE) demographics analysis
using the largest sample of optically selected TDEs. A flux-limited,
spectroscopically complete sample of 33 TDEs is constructed using the Zwicky
Transient Facility over three years (from October 2018 to September 2021). We
infer the black hole (BH) mass () with host galaxy scaling
relations, showing that the sample ranges from
to . We developed a survey efficiency corrected maximum
volume method to infer the rates. The rest-frame -band luminosity function
(LF) can be well described by a broken power-law of , with . In the BH mass regime of , the TDE mass function follows
, which favors a flat local BH mass
function (). We confirm
the significant rate suppression at the high-mass end (), which is consistent with theoretical predictions
considering direct capture of hydrogen-burning stars by the event horizon. At a
host galaxy mass of , the average optical TDE
rate is . We constrain
the optical TDE rate to be [3.7, 7.4, and 1.6 in galaxies with red, green, and blue colors.Comment: Replaced following peer-review process. 38 pages, 23 figures.
Accepted for publication in ApJ
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