202 research outputs found
The Distance and Morphology of V723 Cassiopeiae (NOVA CASSIOPEIA 1995)
We present spatially resolved infrared spectra of V723 Cas (Nova Cassiopeia
1995) obtained over four years with the integral field spectrograph OSIRIS on
Keck II. Also presented are one epoch of spatially unresolved spectra from the
long slit spectrograph NIRSPEC on Keck II. The OSIRIS observations made use of
the laser guide star adaptive optics facility that produced diffraction-limited
spatial resolution of the strong coronal emission features in the nova ejecta.
We remove the point-like continuum from V723 Cas data cubes to reveal details
of the extended nebula and find that emission due to [Si VI] and [Ca VIII] has
an equatorial ring structure with polar nodules-a strikingly different
morphology than emission due to [Al IX], which appears as a prolate spheroid.
The contrast in structure may indicate separate ejection events. Using the
angular expansion and Doppler velocities observed over four epochs spaced at
one year intervals, we determine the distance to V723 Cas to be 3.85+0.23-0.21
kpc. We present the OSIRIS three-dimensional data here in many ways: as
narrowband images, one- and two-dimensional spectra, and a volume rendering
that reveals the true shape of the ejecta.Comment: 37 pages, 8 figure
The Low-Mass Companion to the Lithium-Depleted, Spectroscopic Binary HBC 425 (St 34)
We present high angular resolution, near-infrared imaging and spectroscopy of
a low-mass companion to the lithium-depleted, double-line spectroscopic binary
HBC 425 (St 34) obtained using the Near Infrared Spectrograph (NIRSPEC) and the
Keck II adaptive optics system. Positioned 1.23" southeast of the primary pair,
the companion, HBC 425C, is ~2.4 magnitudes fainter at 2.2 microns.
Moderate-resolution (R~2500) J- and K-band spectroscopy reveal HBC 425C to have
an M5.5 (+/-0.5) spectral type. Comparisons with pre-main sequence evolutionary
models imply a mass of ~0.09 M(Sun) and ages of 8-10 Myr, assuming the nominal
distance of Taurus-Auriga (~140 pc), or ~25 Myr if placed at ~90 pc. We also
present high dispersion, optical spectra of HBC 425 and HBC 425C obtained using
the High Resolution Echelle Spectrometer (HIRES) on Keck I. We detect strong Li
I 6708 absorption in the spectrum of HBC 425C. Using curves of growth for the
Li I 6708 doublet, we estimate its abundance level to lie between log N(Li)=1.9
and 3.1 dex. The spectrum of HBC 425 exhibits Ca II H & K, He I 5876, 6678, and
strong Balmer line emission, consistent with accretion. We place more
restrictive upper limits on the surface abundance of lithium and find that HBC
425 retains less than ~0.1% of its primordial abundance. The presence of
lithium in the photosphere of HBC 425C does not resolve the discrepancy between
isochronal and lithium depletion ages for the primary pair. However, if lithium
were depleted relative to interstellar abundance levels, even minimally,
considerable support would be gained for the more advanced age of this
hierarchical triple system.Comment: 16 pages, 6 figures, accepted for publication in the Publications of
the Astronomical Society of the Pacifi
The Wide Brown Dwarf Binary Oph 1622-2405 and Discovery of A Wide, Low Mass Binary in Ophiuchus (Oph 1623-2402): A New Class of Young Evaporating Wide Binaries?
We imaged five objects near the star forming clouds of Ophiuchus with the
Keck Laser Guide Star AO system. We resolved Allers et al. (2006)'s #11 (Oph
16222-2405) and #16 (Oph 16233-2402) into binary systems. The #11 object is
resolved into a 243 AU binary, the widest known for a very low mass (VLM)
binary. The binary nature of #11 was discovered first by Allers (2005) and
independently here during which we obtained the first spatially resolved R~2000
near-infrared (J & K) spectra, mid-IR photometry, and orbital motion estimates.
We estimate for 11A and 11B gravities (log(g)>3.75), ages (5+/-2 Myr),
luminosities (log(L/Lsun)=-2.77+/-0.10 and -2.96+/-0.10), and temperatures
(Teff=2375+/-175 and 2175+/-175 K). We find self-consistent DUSTY evolutionary
model (Chabrier et al. 2000) masses of 17+4-5 MJup and 14+6-5 MJup, for 11A and
11B respectively. Our masses are higher than those previously reported (13-15
MJup and 7-8 MJup) by Jayawardhana & Ivanov (2006b). Hence, we find the system
is unlikely a ``planetary mass binary'', (in agreement with Luhman et al. 2007)
but it has the second lowest mass and lowest binding energy of any known
binary. Oph #11 and Oph #16 belong to a newly recognized population of wide
(>100 AU), young (<10 Myr), roughly equal mass, VLM stellar and brown dwarf
binaries. We deduce that ~6+/-3% of young (<10 Myr) VLM objects are in such
wide systems. However, only 0.3+/-0.1% of old field VLM objects are found in
such wide systems. Thus, young, wide, VLM binary populations may be
evaporating, due to stellar encounters in their natal clusters, leading to a
field population depleted in wide VLM systems.Comment: Accepted version V2. Now 13 pages longer (45 total) due to a new
discussion of the stability of the wide brown dwarf binary population, new
summary Figure 17 now included, Astrophysical Journal 2007 in pres
Swift X-ray Observations of Classical Novae
The new gamma-ray burst mission Swift has obtained pointed observations of
several classical novae in outburst. We analyzed all the observations of
classical novae from the Swift archive up to 30 June, 2006. We analyzed usable
observations of 12 classical novae and found 4 non-detections, 3 weak sources
and 5 strong sources. This includes detections of 2 novae exhibiting spectra
resembling those of Super Soft X-ray binary Source spectra (SSS) implying
ongoing nuclear burning on the white dwarf surface. With these new Swift data,
we add to the growing statistics of the X-ray duration and characteristics of
classical novae.Comment: Accepted for ApJ; this version contains additional material: 18
pages, 16 figure
Two close binaries across the hydrogen-burning limit in the Praesepe open cluster
We present Keck I/OSIRIS and Keck II/NIRC2 adaptive optics imaging of two
member candidates of the Praesepe stellar cluster (d=186.180.11 pc;
590-790 Myr), UGC J08451066+2148171 (L1.50.5) and UGCS J083019352003293
(no spectroscopic classification). We resolved UGCS J084510662148171 into a
binary system in the near-infrared, with a -band wavelength flux ratio of
0.890.04, a projected separation of 60.31.3 mas (11.20.7 au;
1). We also resolved UGCS J083019352003293 into a binary system with
a flux ratio of 0.460.03 and a separation of 62.50.9 mas. Assuming
zero eccentricity, we estimate minimum orbital periods of 100 years for
both systems. According to theoretical evolutionary models, we derive masses in
the range of 0.074-0.078 M and 0.072-0.076 M for the
primary and secondary of UGCS J084510662148171 for an age of 700100
Myr. In the case of UGCS J083019352003293, the primary is a low-mass star at
the stellar/substellar boundary (0.070-0.078 M) while the companion
candidate might be a brown dwarf (0.051-0.065 M). These are the first
two binaries composed of L dwarfs in Praesepe. They are benchmark systems to
derive the location of the substellar limit at the age and metallicity of
Praesepe, determine the age of the cluster based on the lithium depletion
boundary test, derive dynamical masses, and improve low-mass stellar and
substellar evolutionary models at a well-known age and metallicity.Comment: 12 pages, 5 figures, 3 tables, accepted for publication in MNRA
Variability and multi-periodic oscillations in the X-ray light curve of the classical nova V4743 Sgr
The classical nova V4743 Sgr was observed with XMM-Newton for about 10 hours
on April 4 2003, 6.5 months after optical maximum. At this time, this nova had
become the brightest supersoft X-ray source ever observed. We present the
results of a time series analysis performed on the X-ray light curve obtained
in this observation, and in a previous shorter observation done with Chandra 16
days earlier. Intense variability, with amplitude as large as 40% of the total
flux, was observed both times. Similarities can be found between the two
observations in the structure of the variations. Most of the variability is
well represented as a combination of oscillations at a set of discrete
frequencies lower than 1.7 mHz. At least five frequencies are constant over the
16 day time interval between the two observations. We suggest that a periods in
the power spectrum of both light curves at the frequency of 0.75 mHz and its
first harmonic are related to the spin period of the white dwarf in the system,
and that other observed frequencies are signatures of nonradial white dwarf
pulsations. A possible signal with a 24000 sec period is also found in the
XMM-Newton light curve: a cycle and a half are clearly identified. This period
is consistent with the 24278 s periodicity discovered in the optical light
curve of the source and thought to be the orbital period of the nova binary
system.Comment: In press in Monthly Notices of the Royal Astronomical Societ
The Early Spectrophotometric Evolution of V1186 Scorpii (Nova Scorpii 2004 #1)
We report optical photometry and optical through mid-infrared spectroscopy of
the classical nova V1186 Sco. This slowly developing nova had an complex light
curve with multiple secondary peaks similar to those seen in PW Vul. The time
to decline 2 magnitudes, t, was 20 days but the erratic nature of the light
curve makes determination of intrinsic properties based on the decline time
(e.g., luminosity) problematic, and the often cited MMRD relationship of Della
Valle and Livio (1995) fails to yield a plausible distance. Spectra covering
0.35 to 35 m were obtained in two separate epochs during the first year of
outburst. The first set of spectra, taken about 2 months after visible maximum,
are typical of a CO-type nova with narrow line emission from \ion{H}{1},
\ion{Fe}{2}, \ion{O}{1} and \ion{He}{1}. Later data, obtained between 260 and
380 days after maximum, reveal an emerging nebular spectrum. \textit{Spitzer}
spectra show weakening hydrogen recombination emission with the emergence of
[\ion{Ne}{2}] (12.81 m) as the strongest line. Strong emission from
[\ion{Ne}{3}] (15.56 m) is also detected. Photoionization models with low
effective temperature sources and only marginal neon enhancement (Ne 1.3
Ne) are consistent with these IR fine-structure neon lines indicating
that V1186 Sco did not occur on a ONeMg white dwarf. In contrast, the slow and
erratic light curve evolution, spectral development, and photoionization
analysis of the ejecta imply the outburst occurred on a low mass CO white
dwarf. We note that this is the first time strong [\ion{Ne}{2}] lines have been
detected so early in the outburst of a CO nova and suggests that the presence
of mid-infrared neon lines is not directly indicative of a ONeMg nova event.Comment: 7 figures, 37 pages. Astronimocal Journal accepte
- …