165 research outputs found
Intra-day Variability of Sagittarius A* at 3 Millimeters
We report observations and analysis of flux monitoring of Sagittarius A* at
3-mm wavelength using the OVRO millimeter interferometer over a period of eight
days (2002 May 23-30). Frequent phase and flux referencing (every 5 minutes)
with the nearby calibrator source J1744-312 was employed to control for
instrumental and atmospheric effects. Time variations are sought by computing
and subtracting, from each visibility in the database, an average visibility
obtained from all the data acquired in our monitoring program having similar uv
spacings. This removes the confusing effects of baseline-dependent, correlated
flux interference caused by the static, thermal emission from the extended
source Sgr A West. Few-day variations up to ~20% and intra-day variability of
\~20% and in some cases up to ~40% on few-hour time scales emerge from the
differenced data on SgrA*. Power spectra of the residuals indicate the presence
of hourly variations on all but two of the eight days. Monte Carlo simulation
of red-noise light curves indicates that the hourly variations are well
described by a red-noise power spectrum with P(f) ~ f^(-1). Of particular
interest is a ~2.5 hour variation seen prominently on two consecutive days. An
average power spectrum from all eight days of data reveals noteworthy power on
this time scale. There is some indication that few-hour variations are more
pronounced on days when the average daily flux is highest. We briefly discuss
the possibility that these few-hour variations are due to the dynamical
modulation of accreting gas around the central supermassive black hole, as well
as the implications for the structure of the SgrA* photosphere at 3 mm.
Finally, these data have enabled us to produce a high sensitivity 3-mm map of
the extended thermal emission surrounding SgrA*.Comment: Accepted for publication in The Astrophysical Journal Letters, 8
pages, 4 figure
Near-infrared spectroscopy of SN 2009ip's 2012 brightening reveals a dusty pre-supernova environment
We present low-resolution near-infrared (IR) 0.8–2.5 μm spectra of Supernova (SN) 2009ip, taken immediately before, during and just after its rapid brightening in late September/October 2012. The first epoch shows the same general spectral characteristics as the later epochs (smooth continuum, narrow H and He I emission lines), but the IR continuum shape is substantially redder than the later epochs. The epoch 1 continuum can be approximated by reddening the peak-luminosity (epoch 3) spectrum by E(B − V) = 1.0 mag, but the blue colour seen in visual-wavelength spectra at the same time indicates that strong wavelength-dependent extinction by circumstellar dust is not the correct explanation. Instead, we favour the hypothesis that the redder colour before the brightening arises from excess emission from hot ∼2000 K circumstellar dust. The minimum radius ( ≳ 120 au) deduced from the dust temperature and observed luminosity of the transient, combined with the observed expansion speed in the precursor outbursts of SN 2009ip, is consistent with an ejection at least 1.1 yr earlier. The mass of hot dust indicated by the IR excess is ∼4 × 10^(−7) M⊙, although this is only a lower limit since the near-IR data do not constrain the mass of cooler dust. Thus, the observed pre-SN outbursts of this object were able to efficiently form dust into which the SN ejecta and radiation now propagate. This is consistent with the notion that the same pre-SN eruptions that generally give rise to SNe IIn also give rise to the dust needed for their commonly observed IR echoes. We also discuss some aspects of the IR line profiles, including He I λ10 830
Isolated Wolf-Rayet Stars and O Supergiants in the Galactic Center Region Identified via Paschen-alpha Excess
We report the discovery of 19 hot, evolved, massive stars near the Galactic
center region (GCR). These objects were selected for spectroscopy owing to
their detection as strong sources of Paschen-alpha emission-line excess,
following a narrowband imaging survey of the central 0.65 x 0.25 degress (l, b)
around Sgr A* with the Hubble Space Telescope. Discoveries include 5
carbon-type (WC) and 6 nitrogen-type (WN) Wolf-Rayet stars, 6 O supergiants,
and 2 B supergiants. Two of the O supergiants have X-ray counterparts, the
properties of which are broadly consistent with colliding-wind binaries and
solitary O stars. The infrared photometry of 17 stars is consistent with the
Galactic center distance, but 2 of them are located in the foreground. Several
WC stars exhibit a relatively large infrared excesses, which is possibly the
signature of thermal emission from hot dust. Most of the stars appear scattered
throughout the GCR, with no relation to the three known massive young clusters;
several others lie near the Arches and Quintuplet clusters and may have
originated within one of these systems. The results of this work bring the
total sample of Wolf-Rayet stars in the GCR to 92. All sources of strong
P-alpha excess have been identified in the area surveyed with HST, which
implies that the sample of WN stars in this region is near completion, and is
dominated by late (WNL) types. The current WC sample, although probably not
complete, is almost exclusively dominated by late (WCL) types. The observed
Wolf-Rayet subtype distribution in the GCR is a reflection of the intrinsic
rarity of early subtypes (WNE and WCE) in the inner Galaxy, an effect that is
driven by metallicity.Comment: Correction to Fig 4,5,6,10, and Tables 3, 5. The spectrum of the
previously known WC9 star WR101q had been mistakenly labeled as Star #19 in
Fig. 5 of the original manuscript. Star #19 is actually a newly discovered
WN5b star, whose spectrum was accidentally not included in the original
paper. The correct WN5b spectrum is now included in Fig. 4. An erratum was
submitted to ApJ on Aug 15, 201
HST Palpha Survey of the Galactic Center -- Searching the missing young stellar populations within the Galactic Center
We present preliminary results of our \hst Pa survey of the Galactic
Center (\gc), which maps the central 0.650.25 degrees around Sgr A*.
This survey provides us with a more complete inventory of massive stars within
the \gc, compared to previous observations. We find 157 Pa emitting
sources, which are evolved massive stars. Half of them are located outside of
three young massive star clusters near Sgr A*. The loosely spatial distribution
of these field sources suggests that they are within less massive star
clusters/groups, compared to the three massive ones. Our Pa mosaic not
only resolves previously well-known large-scale filaments into fine structures,
but also reveals many new extended objects, such as bow shocks and H II
regions. In particular, we find two regions with large-scale Pa diffuse
emission and tens of Pa emitting sources in the negative Galactic
longitude suggesting recent star formation activities, which were not known
previously. Furthermore, in our survey, we detect 0.6 million stars, most
of which are red giants or AGB stars. Comparisons of the magnitude distribution
in 1.90 m and those from the stellar evolutionary tracks with different
star formation histories suggest an episode of star formation process about 350
Myr ago in the \gc .Comment: 10 pages, 6 figures, Proceedings of the Galactic Center Workshop
2009, Shangha
Spitzer Space Telescope Observations of the Magnetic Cataclysmic Variable AE Aqr
The magnetic cataclysmic variable AE Aquarii hosts a rapidly rotating white
dwarf which is thought to expel most of the material streaming onto it.
Observations of AE Aqr have been obtained in the wavelength range of 5 - 70
microns with the IRS, IRAC, and MIPS instruments on board the Spitzer Space
Telescope. The spectral energy distribution reveals a significant excess above
the K4V spectrum of the donor star with the flux increasing with wavelength
above 12.5 microns. Superposed on the energy distribution are several hydrogen
emission lines, identified as Pf alpha and Hu alpha, beta, gamma. The infrared
spectrum above 12.5 microns can be interpreted as synchrotron emission from
electrons accelerated to a power-law distribution dN=E^{-2.4}dE in expanding
clouds with an initial evolution timescale in seconds. However, too many
components must then be superposed to explain satisfactorily both the
mid-infrared continuum and the observed radio variability. Thermal emission
from cold circumbinary material can contribute, but it requires a disk
temperature profile intermediate between that produced by local viscous
dissipation in the disk and that characteristic of a passively irradiated disk.
Future high-time resolution observations spanning the optical to radio regime
could shed light on the acceleration process and the subsequent particle
evolution.Comment: 15 pages, 3 figures, accepted for publication in Ap
On the Progenitor System of the Type Iax Supernova 2014dt in M61
We present pre-explosion and post-explosion Hubble Space Telescope images of
the Type Iax supernova (SN Iax) 2014dt in M61. After astrometrically aligning
these images, we do not detect any stellar sources at the position of the SN in
the pre-explosion images to relatively deep limits (3 sigma limits of M_F438W >
-5.0 mag and M_F814W > -5.9 mag). These limits are similar to the luminosity of
SN 2012Z's progenitor system (M_F435W = -5.43 +/- 0.15 and M_F814W = -5.24 +/-
0.16 mag), the only probable detected progenitor system in pre-explosion images
of a SN Iax, and indeed, of any white dwarf supernova. SN 2014dt is consistent
with having a C/O white-dwarf primary/helium-star companion progenitor system,
as was suggested for SN 2012Z, although perhaps with a slightly smaller or
hotter donor. The data are also consistent with SN 2014dt having a low-mass red
giant or main-sequence star companion. The data rule out main-sequence stars
with M_init > 16 M_sun and most evolved stars with M_init > 8 M_sun as being
the progenitor of SN 2014dt. Hot Wolf-Rayet stars are also allowed, but the
lack of nearby bright sources makes this scenario unlikely. Because of its
proximity (D = 12 Mpc), SN 2014dt is ideal for long-term monitoring, where
images in ~2 years may detect the companion star or the luminous bound remnant
of the progenitor white dwarf.Comment: 5 pages, 3 figures, submitted to ApJ
HST Paschen-alpha Survey of the Galactic Center: Data Reduction and Products
Our HST/NICMOS Pa survey of the Galactic center (GC) provides a uniform,
panoramic, high-resolution map of stars and ionized diffuse gas in the central
416 arcmin^2 of the Galaxy. This survey was carried out with 144 HST orbits
using two narrow-band filters at 1.87 and 1.90 micron in NICMOS Camera 3. In
this paper, we describe in detail the data reduction and mosaicking procedures
followed, including background level matching and astrometric corrections. We
have detected ~570,000 near-IR sources and are able to quantify photometric
uncertainties of the detections. The source detection limit varies across the
survey field but the typical 50% completion limit is ~17th mag (Vega System) in
the 1.90 micron band. A comparison with the expected stellar magnitude
distribution shows that these sources are primarily Main-Sequence massive stars
(>7M) and evolved lower mass stars at the distance of the GC. In particular,
the observed source magnitude distribution exhibits a prominent peak, which
could represent the Red Clump stars within the GC. The observed magnitude and
color of these RC stars support a steep extinction curve in the near-IR toward
the GC. The flux ratios of our detected sources in the two bands also allow for
an adaptive and statistical estimate of extinction across the field. With the
subtraction of the extinction-corrected continuum, we construct a net Pa
emission map and identify a set of Pa-emitting sources, which should mostly be
evolved massive stars with strong stellar winds. The majority of the identified
Pa point sources are located within the three known massive GC stellar
clusters. However, a significant fraction of our Pa-emitting sources are
located outside the clusters and may represent a new class of `field' massive
stars, many of which may have formed in isolation and/or in small groups. The
maps and source catalogues presented here are available electronically.Comment: Accepted for publication in MNRA
High-frequency VLBI observations of SgrA* during a multi-frequency campaign in May 2007
In May 2007 the compact radio source Sgr A* was observed in a global
multi-frequency monitoring campaign, from radio to X-ray bands. Here we present
and discuss first and preliminary results from polarization sensitive VLBA
observations, which took place during May 14-25, 2007. Here, Sgr A* was
observed in dual polarization on 10 consecutive days at 22, 43, and 86 GHz. We
describe the VLBI experiments, our data analysis, monitoring program and show
preliminary images obtained at the various frequencies. We discuss the data
with special regard also to the short term variability.Comment: 6 pages, 5 figures;necessary style files included; contribution for
the conference "The Universe under the Microscope" (AHAR 2008), held in Bad
Honnef (Germany) in April 2008, to be published in Journal of Physics:
Conference Series by Institute of Physics Publishing, R. Schoedel, A. Eckart,
S. Pfalzner, and E. Ros (eds.
SN Hunt 248: a super-Eddington outburst from a massive cool hypergiant
We present photometric and spectroscopic observations of SN Hunt 248, a new
supernova (SN) impostor in NGC 5806, which began a multi-stage outburst in 2014
May. The initial '2014a' discovery brightening exhibited an absolute magnitude
of M~-12 and the spectral characteristics of a cool dense outflow, including
P-Cygni lines of Fe II, H I, Na I, and strong line blanketing from metals. The
source rapidly climbed and peaked near M~-15 mag after two additional weeks.
During this bright '2014b' phase the spectrum became dominated by Balmer
emission and a stronger blue continuum, similar to the SN impostor SN 1997bs.
Archival images from the Hubble Space Telescope between 1997 and 2005 reveal a
luminous (4e5 Lsun) variable precursor star. Its location on the
Hertzsprung-Russell diagram is consistent with a massive (M_init~30 Msun) cool
hypergiant having an extremely dense wind and an Eddington ratio just below
unity. At the onset of the recent 2014a brightening, however, the object became
super-Eddington. The subsequent boost in luminosity during the 2014b phase
probably resulted from circumstellar interaction. SN Hunt 248 provides the
first case of a cool hypergiant undergoing a giant eruption reminiscent of
outbursts from luminous blue variable (LBV) stars. This lends support to the
hypothesis that some cool hypergiants, such as Rho Cas, could be LBVs
masquerading under a pseudo-photosphere created by their extremely dense winds.
Moreover, SN Hunt 248 demonstrates that eruptions stemming from such stars can
rival in peak luminosity the giant outbursts of much more massive systems like
Eta Car.Comment: Accepted to MNRAS on 2014 Dec 1. Post-proof version. 14 pages, 9
figure
Near-infrared counterparts to Chandra X-ray sources toward the Galactic Center. II. Discovery of Wolf-Rayet stars and O supergiants
We present new identifications of infrared counterparts to the population of
hard X-ray sources near the Galactic center detected by the Chandra X-ray
Observatory. We have confirmed 16 new massive stellar counterparts to the X-ray
population, including nitrogen-type (WN) and carbon-type (WC) Wolf-Rayet stars,
and O supergiants. For the majority of these sources, the X-ray photometry is
consistent with thermal emission from plasma having temperatures in the range
of kT=1-8 keV or non-thermal emission having power-law indices in the range of
-1<gamma<3, and X-ray luminosities in the range of Lx~1e32-1e34 erg/s. Several
sources have exhibited X-ray variability of several factors between separate
observations. The X-ray properties are not a ubiquitous feature of single
massive stars but are typical of massive binaries, in which the high-energy
emission is generated by the collision of supersonic winds, or by accretion
onto a compact companion. However, the possibility of intrinsic hard X-ray
generation from single stars cannot be completely ruled out. The spectral
energy distributions of these sources exhibit significant infrared excess,
attributable to free-free emission from ionized stellar winds, supplemented by
hot dust emission in the case of the WC stars. With the exception of one object
located near the outer regions of the Quintuplet cluster, most of the new stars
appear isolated or in loose associations. Seven hydrogen-rich WN and O stars
are concentrated near the Sagittarius B HII region, while other similar stars
and more highly evolved hydrogen-poor WN and WC stars lie scattered within ~50
pc, in projection, of Sagitarrius A West. We discuss various mechanisms capable
of generating the observed X-rays and the implications these stars have for
massive star formation in the Galaxy's Central Molecular Zone.Comment: Accepted to ApJ on December 5, 2009. 61 pages, including 17 figure
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