2,300 research outputs found
Deep Spectroscopy of the Host Galaxy of a Tidal Disruption Flare in A1795
A likely tidal disruption of a star by the intermediate-mass black hole
(IMBH) of a dwarf galaxy was recently identified in association with Abell
1795. Without deep spectroscopy for this very faint object, however, the
possibility of a more massive background galaxy or even a disk-instability
flare from a weak AGN could not be dismissed. We have now obtained 8 hours of
Gemini spectroscopy which unambiguously demonstrate that the host galaxy is
indeed an extremely low-mass
galaxy in Abell 1795, comparable to the least-massive galaxies determined to
host IMBHs via other studies. We find that the spectrum is consistent with the
X-ray flare being due to a tidal disruption event rather than an AGN flare. We
also set improved limits on the black hole mass and infer a 15-year X-ray variability of a factor
of . The confirmation of this galaxy-black hole system provides a
glimpse into a population of galaxies that is otherwise difficult to study, due
to the galaxies' low masses and intrinsic faintness, but which may be important
contributors to the tidal disruption rate.Comment: 9 pages, 4 figures. Accepted by MNRA
Mapping Seyfert and LINER Excitation Modes in the Inner kpc of NGC 3393
We have mapped the extended narrow line region (ENLR) of NGC 3393 on scales
of (kpc) from the nucleus using emission
line images of H, [O III], and [S
II] taken with HST as part of the CHandra survey of
Extended Emission line Regions in nearby Seyfert galaxies (CHEERS). By mapping
these lines onto a spatially resolved Baldwin-Phillips-Terlevich (BPT) diagram,
we investigate the impact of feedback from a Compton-thick AGN on its
circumnuclear ISM. We find the expected Seyfert-like emission within the
ionization bicone (; 770 pc). We also find a new,
figure 8 shaped LINER cocoon enveloping the bicone and defining a sharp
(pc) transition between higher and lower ionization zones. These
data illustrate the morphological dependence of ionization states of the ENLR
relative to bicone and host gas geometries.Comment: Accepted by ApJ and published (2016, ApJ, 829, 46). Updated to
reflect the accepted versio
Extended X-ray emission in the IC 2497 - Hanny's Voorwerp system: energy injection in the gas around a fading AGN
We present deep Chandra X-ray observations of the core of IC 2497, the galaxy
associated with Hanny's Voorwerp and hosting a fading AGN. We find extended
soft X-ray emission from hot gas around the low intrinsic luminosity
(unobscured) AGN ( erg s). The
temperature structure in the hot gas suggests the presence of a bubble or
cavity around the fading AGN (\mbox{E_{\rm bub}} \sim 10^{54} - 10^{55}
erg). A possible scenario is that this bubble is inflated by the fading AGN,
which after changing accretion state is now in a kinetic mode. Other
possibilities are that the bubble has been inflated by the past luminous quasar
( erg s), or that the temperature gradient is
an indication of a shock front from a superwind driven by the AGN. We discuss
the possible scenarios and the implications for the AGN-host galaxy
interaction, as well as an analogy between AGN and X-ray binaries lifecycles.
We conclude that the AGN could inject mechanical energy into the host galaxy at
the end of its lifecycle, and thus provide a source for mechanical feedback, in
a similar way as observed for X-ray binaries.Comment: 9 pages, 5 figures, accepted for publication in MNRA
An Ultrasoft X-ray Flare from 3XMM J152130.7+074916: a Tidal Disruption Event Candidate
We report on the discovery of an ultrasoft X-ray transient source, 3XMM
J152130.7+074916. It was serendipitously detected in an XMM-Newton observation
on 2000 August 23, and its location is consistent with the center of the galaxy
SDSS J152130.72+074916.5 (z=0.17901 and d_L=866 Mpc). The high-quality X-ray
spectrum can be fitted with a thermal disk with an apparent inner disk
temperature of 0.17 keV and a rest-frame 0.24-11.8 keV unabsorbed luminosity of
~5e43 erg/s, subject to a fast-moving warm absorber. Short-term variability was
also clearly observed, with the spectrum being softer at lower flux. The source
was covered but not detected in a Chandra observation on 2000 April 3, a Swift
observation on 2005 September 10, and a second XMM-Newton observation on 2014
January 19, implying a large variability (>260) of the X-ray flux. The optical
spectrum of the candidate host galaxy, taken ~11 yrs after the XMM-Newton
detection, shows no sign of nuclear activity. This, combined with its transient
and ultrasoft properties, leads us to explain the source as tidal disruption of
a star by the supermassive black hole in the galactic center. We attribute the
fast-moving warm absorber detected in the first XMM-Newton observation to the
super-Eddington outflow associated with the event and the short-term
variability to a disk instability that caused fast change of the inner disk
radius at a constant mass accretion rate.Comment: 9 pages, 5 figures. ApJ, in pres
Magic Numbers and Optical Absorption Spectrum in Vertically Coupled Quantum Dots in the Fractional Quantum Hall Regime
Exact diagonalization is used to study the quantum states of vertically
coupled quantum dots in strong magnetic fields. We find a new sequence of
angular momentum magic numbers which are a consequence of the electron
correlation in the double dot. The new sequence occurs at low angular momenta
and changes into the single dot sequence at a critical angular momentum
determined by the strength of the inter-dot electron tunneling. We also propose
that the magic numbers can be investigated experimentally in vertically coupled
dots. Because of the generalized Kohn theorem, the far-infrared optical
absorption spectrum of a single dot is unaffected by correlation but the
theorem does not hold for two vertically coupled dots which have different
confining potentials. We show that the absorption energy of the double dot
should exhibit discontinuities at the magnetic fields where the total angular
momentum changes from one magic number to another.Comment: 4 pages, 3 Postscript figures, RevTeX. (to appear in Phys.Rev.B
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