875 research outputs found
Episodic absorption in the outflow of V603 Aquilae
We report on the time-dependent behaviour of ultraviolet spectral lines in Hubble Space Telescope Goddard High-Resolution Spectrograph data of the classical nova V603 Aql. In particular, episodic blueshifted absorption (extending to ∼−2500 km s−1) is present, with a variability time-scale down to ∼1 min. The data provide a rare opportunity to study the rapid evolution of absorption structures that may be associated with accretion-disc winds in cataclysmic variables. At least three absorption events are recorded (at blueward velocities only) over ∼5 h, each lasting ∼10–15 min. The derived velocity, acceleration and optical depth properties provide an empirical picture of stochastically variable structures in the outflow, with no evidence for short-term (less than ∼1 h) cyclic or modulated behaviour in the overall absorption properties. In contrast, the emission components of the ultraviolet resonance lines are very stable in velocity and strength in this low-inclination system. On at least two occasions there is an intriguing short-term ‘flare’ in the ultraviolet continuum flux (of up to ∼40 per cent). Though there is no clear one-to-one relation in these data between the continuum fluctuations and the occurrence of the absorption events, the time-scales for the two variable phenomena are essentially the same. The irregular absorption episodes in the ultraviolet data of V603 Aql presently defy a clear physical interpretation. Their overall characteristics are discussed in the context of instabilities in radiation-pressure-driven disc winds
On resonance line profiles predicted by radiation driven disk wind models
We report on resonance line profiles predicted by radiation driven disk wind
models which extend radially one order of magnitude farther out than our
previous models. Our main result is that the inclusion of a disk wind at larger
radii changes qualitatively and quantitatively the line profiles predicted by
the models. Our new models predict line absorption that is significantly
stronger than those predicted by old models. Some of the previous line profiles
exhibit a doubled-humped structure near the line center which is now replaced
by a more plausible single, blueshifted minimum. We emphasize that the
improvements in the shape as well as the strength of the absorption were
achieved without changing the gross properties of the wind. In particular, our
new models do not predict a higher mass-loss rate than the previous models. The
main changes in the line profiles are due to the fact that the ratio between
the rotational velocity and poloidal velocity of the wind decreases downstream.
The new line profiles reproduce well the line absorption of the nova-like
variable, IX~Vel, and promise to reproduce observations of other cataclysmic
variables. This success of the radiation driven disk wind model provides an
important link between outflows in OB stars and outflows in active galactic
nuclei.Comment: to appear in ApJ Lette
Searching for nova shells around cataclysmic variables
We present the results of a search for nova shells around 101 cataclysmic
variables (CVs), using Halpha images taken with the 4.2-m William Herschel
Telescope (WHT) and the 2.5-m Isaac Newton Telescope Photometric Halpha Survey
of the Northern Galactic Plane (IPHAS). Both telescopes are located on La
Palma. We concentrated our WHT search on nova-like variables, whilst our IPHAS
search covered all CVs in the IPHAS footprint. We found one shell out of the 24
nova-like variables we examined. The newly discovered shell is around V1315 Aql
and has a radius of approx.2.5 arcmin, indicative of a nova eruption
approximately 120 years ago. This result is consistent with the idea that the
high mass-transfer rate exhibited by nova-like variables is due to enhanced
irradiation of the secondary by the hot white dwarf following a recent nova
eruption. The implications of our observations for the lifetime of the
nova-like variable phase are discussed. We also examined 4 asynchronous polars,
but found no new shells around any of them, so we are unable to confirm that a
recent nova eruption is the cause of the asynchronicity in the white dwarf
spin. We find tentative evidence of a faint shell around the dwarf nova V1363
Cyg. In addition, we find evidence for a light echo around the nova V2275 Cyg,
which erupted in 2001, indicative of an earlier nova eruption approx.300 years
ago, making V2275 Cyg a possible recurrent nova.Comment: 14 pages, 50 figures, 3 Table
Nuclear star cluster formation in energy-space
In a virialized stellar system, the mean-square velocity is a direct tracer
of the energy per unit mass of the system. Here, we exploit this to estimate
and compare root-mean-square velocities for a large sample of nuclear star
clusters and their host (late- or early-type) galaxies. Traditional
observables, such as the radial surface brightness and second-order velocity
moment profiles, are subject to short-term variations due to individual
episodes of matter infall and/or star formation. The total mass, energy and
angular momentum, on the other hand, are approximately conserved. Thus, the
total energy and angular momentum more directly probe the formation of galaxies
and their nuclear star clusters, by offering access to more fundamental
properties of the nuclear cluster-galaxy system than traditional observables.
We find that there is a strong correlation, in fact a near equality, between
the root-mean-square velocity of a nuclear star cluster and that of its host.
Thus, the energy per unit mass of a nuclear star cluster is always comparable
to that of its host galaxy. We interpret this as evidence that nuclear star
clusters do not form independently of their host galaxies, but rather that
their formation and subsequent evolution are coupled. We discuss how our
results can potentially be used to offer a clear and observationally testable
prediction to distinguish between the different nuclear star cluster formation
scenarios, and/or quantify their relative contributions.Comment: 12 pages, 3 figures, 4 tables; accepted for publication in MNRA
Calcium-Rich Gap Transients: Tidal Detonations of White Dwarfs?
We hypothesize that at least some of the recently discovered class of
calcium-rich gap transients are tidal detonation events of white dwarfs (WDs)
by black holes (BHs) or possibly neutron stars. We show that the properties of
the calcium-rich gap transients agree well with the predictions of the tidal
detonation model. Under the predictions of this model, we use a follow-up X-ray
observation of one of these transients, SN 2012hn, to place weak upper limits
on the detonator mass of this system that include all intermediate-mass BHs
(IMBHs). As these transients are preferentially in the stellar haloes of
galaxies, we discuss the possibility that these transients are tidal
detonations of WDs caused by random flyby encounters with IMBHs in dwarf
galaxies or globular clusters. This possibility has been already suggested in
the literature but without connection to the calcium-rich gap transients. In
order for the random flyby cross-section to be high enough, these events would
have to be occurring inside these dense stellar associations. However, there is
a lack of evidence for IMBHs in these systems, and recent observations have
ruled out all but the very faintest dwarf galaxies and globular clusters for a
few of these transients. Another possibility is that these are tidal
detonations caused by three-body interactions, where a WD is perturbed toward
the detonator in isolated multiple star systems. We highlight a number of ways
this could occur, even in lower-mass systems with stellar-mass BHs or neutron
stars. Finally, we outline several new observational tests of this scenario,
which are feasible with current instrumentation.Comment: 10 pages, 1 figure, accepted for publication in MNRA
Assisted stellar suicide: the wind-driven evolution of the recurrent nova T Pyxidis
We show that the extremely high luminosity of the short-period recurrent nova
T Pyx in quiescence can be understood if this system is a wind-driven supersoft
x-ray source (SSS). In this scenario, a strong, radiation-induced wind is
excited from the secondary star and accelerates the binary evolution. The
accretion rate is therefore much higher than in an ordinary cataclysmic binary
at the same orbital period, as is the luminosity of the white dwarf primary. In
the steady state, the enhanced luminosity is just sufficient to maintain the
wind from the secondary. The accretion rate and luminosity predicted by the
wind-driven model for T Pyx are in good agreement with the observational
evidence. X-ray observations with Chandra or XMM may be able to confirm T Pyx's
status as a SSS.
T Pyx's lifetime in the wind-driven state is on the order of a million years.
Its ultimate fate is not certain, but the system may very well end up
destroying itself, either via the complete evaporation of the secondary star,
or in a Type Ia supernova if the white dwarf reaches the Chandrasekhar limit.
Thus either the primary, the secondary, or both may currently be committing
assisted stellar suicide.Comment: accepted for publication in A&A Letters; 5 pages; no figure
The reverberation signatures of rotating disc winds in active galactic nuclei
The broad emission lines (BELs) in active galactic nuclei (AGN) respond to
ionizing continuum variations. The time and velocity dependence of their
response depends on the structure of the broad-line region: its geometry,
kinematics and ionization state. Here, we predict the reverberation signatures
of BELs formed in rotating accretion disc winds. We use a Monte Carlo radiative
transfer and ionization code to predict velocity-delay maps for representative
high- (C) and low-ionization (H) emission lines in both high- and
moderate-luminosity AGN. Self-shielding, multiple scattering and the ionization
structure of the outflows are all self-consistently taken into account, while
small-scale structure in the outflow is modelled in the micro-clumping
approximation. Our main findings are: (1) The velocity-delay maps of
smooth/micro-clumped outflows often contain significant negative responses.
(2)~The reverberation signatures of disc wind models tend to be rotation
dominated and can even resemble the classic "red-leads-blue" inflow signature.
(3) Traditional "blue-leads-red" outflow signatures can usually only be
observed in the long-delay limit. (4) Our models predict lag-luminosity
relationships similar to those inferred from observations, but systematically
underpredict the observed centroid delays. (5) The ratio between "virial
product" and black hole mass predicted by our models depends on viewing angle.
Our results imply that considerable care needs to be taken in interpreting data
obtained by observational reverberation mapping campaigns. In particular, basic
signatures such as "red-leads-blue", "blue-leads-red" and "blue and red vary
jointly" are not always reliable indicators of inflow, outflow or rotation.
This may help to explain the perplexing diversity of such signatures seen in
observational campaigns to date.Comment: 15 pages, 17 figures, 2 tables. Accepted by MNRAS 20/7/201
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