60 research outputs found
X-ray emission from the remarkable A-type star HR 8799
We present a Chandra observation of the exceptional planet bearing A5V star
HR 8799, more precisely classified as a kA5hF0mA5 star and search for intrinsic
X-ray emission. We clearly detect HR 8799 at soft X-ray energies with the
ACIS-S detector in a 10 ks exposure; minor X-ray brightness variability is
present during the observation. The coronal plasma is described well by a model
with a temperature of around 3 MK and an X-ray luminosity of about Lx = 1.3 x
10^28 erg/s in the 0.2-2.0 keV band, corresponding to an activity level of log
Lx/Lbol ~ -6.2. Altogether, these findings point to a rather weakly active and
given a RASS detection, long-term stable X-ray emitting star. The X-ray
emission from HR 8799 resembles those of a late A/early F-type stars, in
agreement with its classification from hydrogen lines and effective temperature
determination and thus resolving the apparent discrepancy with the standard
picture of magnetic activity that predicts mid A-type stars to be virtually
X-ray dark.Comment: 4 pages, 3 figures, accepted by A&
Strong latitudinal shear in the shallow convection zone of a rapidly rotating A-star
We have derived the mean broadening profile of the star V102 in the region of
the open cluster IC4665 from high resolution spectroscopy. At a projected
equatorial rotation velocity of vsini = (105 +- 12)km/s we find strong
deviation from classical rotation. We discuss several scenarios, the most
plausible being strong differential rotation in latitudinal direction. For this
scenario we find a difference in angular velocity of DeltaOmega = 3.6 +- 0.8
rad/d (DeltaOmega/Omega = 0.42 +- 0.09). From the Halpha line we derive a
spectral type of A9 and support photometric measurements classifying IC4665
V102 as a non-member of IC4665. At such early spectral type this is the
strongest case of differential rotation observed so far. Together with three
similar stars, IC4665 V102 seems to form a new class of objects that exhibit
extreme latitudinal shear in a very shallow convective envelope.Comment: accepted for A&A Letter
Fe XIII coronal line emission in cool M dwarfs
We report on a search for the Fe xiii forbidden coronal line at 3388.1 \AA in
a sample of 15 M-type dwarf stars covering the whole spectral class as well as
different levels of activity. A clear detection was achieved for LHS 2076
during a major flare and for CN Leo, where the line had been discovered before.
For some other stars the situation is not quite clear. For CN Leo we
investigated the timing behaviour of the Fe xiii line and report a high level
of variability on a timescale of hours which we ascribe to microflare heating.Comment: 13 pages, 10 figure
Toward detection of terrestrial planets in the habitable zone of our closest neighbor: Proxima Centauri
The precision of radial velocity (RV) measurements to detect indirectly
planetary companions of nearby stars has improved to enable the discovery of
extrasolar planets in the Neptune and Super-Earth mass range. Discoveries of
Earth-like planets by means of ground-based RV programs will help to determine
the parameter Eta_Earth, the frequency of potentially habitable planets around
other stars. In search of low-mass planetary companions we monitored Proxima
Centauri (M5V) as part of our M dwarf program. In the absence of a significant
detection, we use these data to demonstrate the general capability of the RV
method in finding terrestrial planets. For late M dwarfs the classic liquid
surface water habitable zone (HZ) is located close to the star, in which
circumstances the RV method is most effective. We want to demonstrate that late
M dwarfs are ideal targets for the search of terrestrial planets with the RV
technique. We obtained differential RV measurements of Proxima Cen over a time
span of 7 years with the UVES spectrograph at the ESO VLT. We determine upper
limits to the masses of companions in circular orbits by means of numerical
simulations. The RV data of Proxima Cen have a total rms scatter of 3.1 m/s and
a period search does not reveal any significant signals. As a result of our
companion limit calculations, we find that we successfully recover all test
signals with RV amplitudes corresponding to planets with m sin i > 2 - 3
M_Earth residing inside the HZ of Proxima Cen with a statistical significance
of >99%. Over the same period range, we can recover 50% of the test planets
with masses of m sin i > 1.5 - 2.5 M_Earth. Based on our simulations, we
exclude the presence of any planet in a circular orbit with m sin i > 1
M_Neptune at separations of a < 1 AU.Comment: 8 pages, 4 figures, accepted for publication in Astronomy &
Astrophysic
The M dwarf planet search programme at the ESO VLT + UVES. A search for terrestrial planets in the habitable zone of M dwarfs
We present radial velocity (RV) measurements of our sample of 40 M dwarfs
from our planet search programme with VLT+UVES begun in 2000. Although with our
RV precision down to 2 - 2.5 m/s and timebase line of up to 7 years, we are
capable of finding planets of a few Earth masses in the close-in habitable
zones of M dwarfs, there is no detection of a planetary companion. To
demonstrate this we present mass detection limits allowing us to exclude
Jupiter-mass planets up to 1 AU for most of our sample stars. We identified 6 M
dwarfs that host a brown dwarf or low-mass stellar companion. With the
exception of these, all other sample stars show low RV variability with an rms
< 20 m/s. Some high proper motion stars exhibit a linear RV trend consistent
with their secular acceleration. Furthermore, we examine our data sets for a
possible correlation between RVs and stellar activity as seen in variations of
the Halpha line strength. For Barnard's star we found a significant
anticorrelation, but most of the sample stars do not show such a correlation.Comment: 13 pages, 12 figures, 5 tables, accepted by A&
Direct detection of a magnetic field in the photosphere of the single M giant EK Boo: How common is magnetic activity among M giants?
We study the fast rotating M5 giant EK Boo by means of spectropolarimetry to
obtain direct and simultaneous measurements of both the magnetic field and
activity indicators, in order to infer the origin of the activity in this
fairly evolved giant. We used the new spectropolarimeter NARVAL at the Bernard
Lyot Telescope (Observatoire du Pic du Midi, France) to obtain a series of
Stokes I and Stokes V profiles for EK Boo. Using the Least Square Deconvolution
technique we were able to detect the Zeeman signature of the magnetic field. We
measured its longitudinal component by means of the averaged Stokes V and
Stokes I profiles. The spectra also permitted us to monitor the CaII K&H
chromospheric emission lines, which are well known as indicators of stellar
magnetic activity. From ten observations obtained between April 2008 and March
2009, we deduce that EK Boo has a magnetic field, which varied in the range of
-0.1 to -8 G. We also determined the initial mass and evolutionary stage of EK
Boo, based on up-to-date stellar evolution tracks. The initial mass is in the
range of 2.0-3.6 M_sun, and EK Boo is either on the asymptotic giant branch
(AGB), at the onset of the thermal pulse phase, or at the tip of the first (or
red) giant branch (RGB). The fast rotation and activity of EK Boo might be
explained by angular momentum dredge-up from the interior, or by the merging of
a binary. In addition, we observed eight other M giants, which are known as
X-ray emitters, or to be rotating fast for their class. For one of these, beta
And, presumably also an AGB star, we have a marginal detection of magnetic
field, and a longitudinal component Bl of about 1G was measured. More
observations like this will answer the question whether EK Boo is a special
case, or whether magnetic activity is, rather, more common among M giants than
expected.Comment: Accepted for publication in Astronomy & Astrophysics, 10 pages, 8
figure
Luminosity function of faint Galactic sources in the Chandra bulge field
We study the statistical properties of faint X-ray sources detected in the
Chandra Bulge Field. The unprecedented sensitivity of the Chandra observations
allows us to probe the population of faint Galactic X-ray sources down to
luminosities L(2-10 keV)~1e30 erg/sec at the Galactic Center distance. We show
that the luminosity function of these CBF sources agrees well with the
luminosity function of sources in the Solar vicinity (Sazonov et al. 2006). The
cumulative luminosity density of sources detected in the CBF in the luminosity
range 1e30-1e32 erg/sec per unit stellar mass is L(2-10 keV)/M*=(1.7+/-0.3)e27
erg/sec/Msun. Taking into account sources in the luminosity range 1e32-1e34
erg/sec from Sazonov et al. (2006), the cumulative luminosity density in the
broad luminosity range 1e30-1e34 erg/sec becomes L(2-10 keV)/M*=(2.4+/-0.4)e27
erg/sec/Msun. The majority of sources with the faintest luminosities should be
active binary stars with hot coronae based on the available luminosity function
of X-ray sources in the Solar environment.Comment: 5 pages, 4 figures, Accepted for publication in MNRA
Detection of X-rays from the jet-driving Symbiotic Star MWC 560
We report the detection of X-ray emission from the jet-driving symbiotic star
MWC 560. We observed MWC 560 with XMM-Newton for 36 ks. We fitted the spectra
from the EPIC pn, MOS1 and MOS2 instruments with XSPEC and examined the light
curves with the package XRONOS. The spectrum can be fitted with a highly
absorbed hard X-ray component from an optically-thin hot plasma, a Gaussian
emission line with an energy of 6.1 keV and a less absorbed soft thermal
component. The best fit is obtained with a model in which the hot component is
produced by optically thin thermal emission from an isobaric cooling flow with
a maximum temperature of 61 keV, which might be created inside an
optically-thin boundary layer on the surface of the accreting with dwarf. The
derived parameters of the hard component detected in MWC 560 are in good
agreement with similar objects as CH Cyg, SS7317, RT Cru and T CrB, which all
form a new sub-class of symbiotic stars emitting hard X-rays. Our previous
numerical simulations of the jet in MWC 560 showed that it should produce
detectable soft X-ray emission. We infer a temperature of 0.17 keV for the
observed soft component, i.e. less than expected from our models. The total
soft X-ray flux (i.e. at < 3 keV) is more than a factor 100 less than predicted
for the propagating jet soon after its birth (<0.3 yr), but consistent with the
value expected due its decrease with age. The ROSAT upper limit is also
consistent with such a decrease. We find aperiodic or quasi-periodic
variability on timescales of minutes and hours, but no periodic rapid
variability. All results are consistent with an accreting white dwarf powering
the X-ray emission and the existence of an optically-thin boundary layer around
it.Comment: 8 pages, 5 figure, accepted for publication in A &
The planet search program at the ESO Coude Echelle spectrometer. III. The complete Long Camera survey results
We present the complete results of the planet search program carried out at the ESO Coude Echelle Spectrometer (CES) on La Silla, using the Long Camera from Nov. 1992 to April 1998. The CES survey has monitored 37 late-type (F8V - M5V) stars in the southern hemisphere for variations in their differential radial velocities (RV) in order to detect Doppler reflex motions caused by planetary companions. This led to the discovery of the first extrasolar planet in an Earth-like orbit around the young (ZAMS) and active G0V star iota Horologii (Kuerster et al. 2000). Here we present the RV results for all survey stars and perform a statistical examination of the whole data-set. Each star is tested for RV variability, RV trends (linear and non-linear) and significant periodic signals. Beta Hyi and eps Ind are identified as long-term, low-amplitude RV variables. Furthermore, for 30 CES survey stars we determine quantitative upper mass-limits for giant planets based on our long-term RV results. We find that the CES Long Camera survey would have detected short-period (51 Peg-type) planets around all 30 stars but no planets with m sin i < 1 M_Jup at orbital separations larger than 2 AU. Finally, we demonstrate that the CES planet search can be continued without applying velocity corrections to the RV results coming from the currently installed Very Long Camera at the CES
An L0 dwarf companion in the brown dwarf desert, at 30 AU
We present the discovery of an L0 companion to the nearby M1.5 dwarf G
239-25, at a projected distance of 31 AU. It is the faintest companion
discovered so far in our adaptive optics survey of all known M dwarfs within 12
pc, and it lies at the stellar/substellar limit. Given the assumed age of the
primary star, the companion is likely an extremely low mass star. The long
orbital period of G 239-25 AB ( years) precludes a direct mass
determination, but the relatively wide angular separation will allow detailed
analyses of its near infrared and visible spectra.Comment: accepted by AA Letter
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