1,173 research outputs found
Asteroseismology of the planet-hosting star mu Arae. II. Seismic analysis
As most exoplanets host stars, HD 160691 (alias mu Ara) presents a
metallicity excess in its spectrum compared to stars without detected planets.
This excess may be primordial, in which case the star would be completely
overmetallic, or it may be due to accretion in the early phases of planetary
formation, in which case it would be overmetallic only in its outer layers. As
discussed in a previous paper (Bazot and Vauclair 2004), seismology can help
choosing between the two scenarios. This star was observed during eight nights
with the spectrograph HARPS at La Silla Observatory. Forty three p-modes have
been identified (Bouchy et al. 2005). In the present paper, we discuss the
modelisation of this star. We computed stellar models iterated to present the
same observable parameters (luminosity, effective temperature, outer chemical
composition) while the internal structure was different according to the two
extreme assumptions : original overmetallicity or accretion. We show that in
any case the seismic constraints lead to models in complete agreement with the
external parameters deduced from spectroscopy and from the Hipparcos parallax
(L and Teff). We discuss the tests which may lead to a choice between the two
typical scenarios. We show that the ``small separation'' seem to give a better
fit for the accretion case than for the overmetallic case, but in spite of the
very good data the uncertainties are still too large to conclude. We discuss
the observations which would be needed to go further and solve this question.Comment: 16 pages, 8 figures, accepted in A&
A planet-sized transiting star around OGLE-TR-122 - Accurate mass and radius near the Hydrogen-burning limit
We report the discovery and characterisation of OGLE-TR-122b, the smallest
main-sequence star to date with a direct radius determination. OGLE-TR-122b
transits around its solar-type primary every 7.3-days. With M=0.092+-0.009 Mo
and R=0.120 +0.024-0.013 Ro, it is by far the smallest known eclipsing M-dwarf.
The derived mass and radius for OGLE-TR-122b are in agreement with the
theoretical expectations. OGLE-TR-122b is the first observational evidence that
stars can indeed have radii comparable or even smaller than giant planets. In
such cases, the photometric signal is exactly that of a transiting planet and
the true nature of the companion can only be determined with high-resolution
spectroscopy.Comment: 4 pages, 3 figures, A&A letters, in Press. Revise
A correlation between the heavy element content of transiting extrasolar planets and the metallicity of their parent stars
Nine extrasolar planets with masses between 110 and 430M are known to transit
their star. The knowledge of their masses and radii allows an estimate of their
composition, but uncertainties on equations of state, opacities and possible
missing energy sources imply that only inaccurate constraints can be derived
when considering each planet separately. Aims: We seek to better understand the
composition of transiting extrasolar planets by considering them as an
ensemble, and by comparing the obtained planetary properties to that of the
parent stars. Methods: We use evolution models and constraints on the stellar
ages to derive the mass of heavy elements present in the planets. Possible
additional energy sources like tidal dissipation due to an inclined orbit or to
downward kinetic energy transport are considered. Results: We show that the
nine transiting planets discovered so far belong to a quite homogeneous
ensemble that is characterized by a mass of heavy elements that is a relatively
steep function of the stellar metallicity, from less than 20 earth masses of
heavy elements around solar composition stars, to up to 100M for three times
the solar metallicity (the precise values being model-dependant). The
correlation is still to be ascertained however. Statistical tests imply a
worst-case 1/3 probability of a false positive. Conclusions: Together with the
observed lack of giant planets in close orbits around metal-poor stars, these
results appear to imply that heavy elements play a key role in the formation of
close-in giant planets. The large masses of heavy elements inferred for planets
orbiting metal rich stars was not anticipated by planet formation models and
shows the need for alternative theories including migration and subsequent
collection of planetesimals.Comment: Astronomy and Astrophysics 0 (2006) in pres
Consequences of spectrograph illumination for the accuracy of radial-velocimetry
For fiber-fed spectrographs with a stable external wavelength source,
scrambling properties of optical fibers and, homogeneity and stability of the
instrument illumination are important for the accuracy of radial-velocimetry.
Optical cylindric fibers are known to have good azimuthal scrambling. In
contrast, the radial one is not perfect. In order to improve the scrambling
ability of the fiber and to stabilize the illumination, optical double
scrambler are usually coupled to the fibers. Despite that, our experience on
SOPHIE and HARPS has lead to identified remaining radial-velocity limitations
due to the non-uniform illumination of the spectrograph. We conducted tests on
SOPHIE with telescope vignetting, seeing variation and centering errors on the
fiber entrance. We simulated the light path through the instrument in order to
explain the radial velocity variation obtained with our tests. We then
identified the illumination stability and uniformity has a critical point for
the extremely high-precision radial velocity instruments (ESPRESSO@VLT,
CODEX@E-ELT). Tests on square and octagonal section fibers are now under
development and SOPHIE will be used as a bench test to validate these new feed
optics.Comment: to appear in the Proceedings conference "New Technologies for Probing
the Diversity of Brown Dwarfs and Exoplanets", Shanghai, 200
Detection of Solar-like Oscillations in the G7 Giant Star xi Hya
We report the firm discovery of solar-like oscillations in a giant star. We
monitored the star xi Hya (G7III) continuously during one month with the
CORALIE spectrograph attached to the 1.2m Swiss Euler telescope. The 433
high-precision radial-velocity measurements clearly reveal multiple oscillation
frequencies in the range 50 - 130 uHz, corresponding to periods between 2.0 and
5.5 hours. The amplitudes of the strongest modes are slightly smaller than 2
m/s. Current model calculations are compatible with the detected modes.Comment: 4 pages, 4 figures, accepted for publication as a letter in A&
SOPHIE velocimetry of Kepler transit candidates III. KOI-423b: an 18 Mjup transiting companion around an F7IV star
We report the strategy and results of our radial velocity follow-up campaign
with the SOPHIE spectrograph (1.93-m OHP) of four transiting planetary
candidates discovered by the Kepler space mission. We discuss the selection of
the candidates KOI-428, KOI-410, KOI-552, and KOI-423. KOI-428 was established
as a hot Jupiter transiting the largest and the most evolved star discovered so
far and is described by Santerne et al. (2011a). KOI-410 does not present
radial velocity change greater than 120 m/s, which allows us to exclude at 3
sigma a transiting companion heavier than 3.4 Mjup. KOI-552b appears to be a
transiting low-mass star with a mass ratio of 0.15. KOI-423b is a new
transiting companion in the overlapping region between massive planets and
brown dwarfs. With a radius of 1.22 +- 0.11 Rjup and a mass of 18.0 +- 0.92
Mjup, KOI-423b is orbiting an F7IV star with a period of 21.0874 +- 0.0002 days
and an eccentricity of 0.12 +- 0.02. From the four selected Kepler candidates,
at least three of them have a Jupiter-size transiting companion, but two of
them are not in the mass domain of Jupiter-like planets. KOI-423b and KOI-522b
are members of a growing population of known massive companions orbiting close
to an F-type star. This population currently appears to be absent around G-type
stars, possibly due to their rapid braking and the engulfment of their
companions by tidal decay.Comment: 9 pages, 12 figures, accepted in A&
The HARPS search for southern extra-solar planets. XX. Planets around the active star BD-08:2823
We report the detection of a planetary system around BD-08:2823, that
includes at least one Uranus-mass planet and one Saturn-mass planet. This
discovery serendipitously originates from a search for planetary transits in
the Hipparcos photometry database. This program preferentially selected active
stars and did not allow the detection of new transiting planets. It allowed
however the identification of the K3V star BD-08:2823 as a target harboring a
multiplanet system, that we secured and characterized thanks to an intensive
monitoring with the HARPS spectrograph at the 3.6-m ESO telescope in La Silla.
The stellar activity level of BD-08:2823 complicates the analysis but does not
prohibit the detection of two planets around this star. BD-08:2823b has a
minimum mass of 14.4+/-2.1 M_Earth and an orbital period of 5.60 days, whereas
BD-08:2823c has a minimum mass of 0.33+/-0.03 M_Jup and an orbital period of
237.6 days. This new system strengthens the fact that low-mass planets are
preferentially found in multiplanetary systems, but not around high-metallicity
stars as this is the case for massive planets. It also supports the belief that
active stars should not be neglected in exoplanet searches, even when searching
for low-mass planets.Comment: 10 pages, 8 figures, 3 tables, accepted for publication in A&
The non-detection of oscillations in Procyon by MOST: is it really a surprise?
We argue that the non-detection of oscillations in Procyon by the MOST
satellite reported by Matthews et al. (2004) is fully consistent with published
ground-based velocity observations of this star. We also examine the claims
that the MOST observations represent the best photometric precision so far
reported in the literature by about an order of magnitude and are the most
sensitive data set for asteroseismology available for any star other than the
Sun. These statements are not correct, with the most notable exceptions being
observations of oscillations in alpha Cen A that are far superior. We further
disagree that the hump of excess power seen repeatedly from velocity
observations of Procyon can be explained as an artefact caused by gaps in the
data. The MOST observations failed to reveal oscillations clearly because their
noise level is too high, possibly from scattered Earthlight in the instrument.
We did find an excess of strong peaks in the MOST amplitude spectrum that is
inconsistent with a simple noise source such as granulation, and may perhaps
indicate oscillations at roughly the expected level.Comment: 6 pages, accepted for publication in A&A Letter
p-mode frequencies in solar-like stars : I. Procyon A
As a part of an on-going program to explore the signature of p-modes in
solar-like stars by means of high-resolution absorption lines pectroscopy, we
have studied four stars (alfaCMi, etaCas A, zetaHer A and betaVir). We present
here new results from two-site observations of Procyon A acquired over twelve
nights in 1999. Oscillation frequencies for l=1 and l=0 (or 2) p-modes are
detected in the power spectra of these Doppler shift measurements. A frequency
analysis points out the dificulties of the classical asymptotic theory in
representing the p-mode spectrum of Procyon A
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