67 research outputs found
Analysis of apsidal motion in eclipsing binaries using TESS data: I. A test of gravitational theories
The change in the argument of periastron of eclipsing binaries, i.e., the
apsidal motion caused by classical and relativistic effects, can be measured
from variations in the difference between the time of minimum light of the
primary and secondary eclipses. Poor apsidal motion rate determinations and
large uncertainties in the classical term have hampered previous attempts to
determine the general relativistic term with sufficient precision to test
General Relativity predictions.
As a product of the TESS mission, thousands of high-precision light curves
from eclipsing binaries are now available. Using a selection of suitable
well-studied eccentric eclipsing binary systems, we aim to determine their
apsidal motion rates and place constraints on key gravitational parameters.
We compute the time of minimum light from the TESS light curves of 15
eclipsing binaries with precise absolute parameters and with an expected
general relativistic contribution to the total apsidal motion rate greater than
60%. We use the changing primary and secondary eclipse timing differences over
time to compute the apsidal motion rate, when possible, or the difference
between the linear periods as computed from primary and secondary eclipses. For
a greater time baseline we carefully combine the high-precision TESS timings
with archival reliable timings.
We determine the apsidal motion rate of 9 eclipsing binaries, 5 of which are
reported for the first time. From these, we are able to measure the general
relativistic apsidal motion rate of 6 systems with sufficient precision to test
General Relativity for the first time using this method. This test explores a
regime of gravitational forces and potentials that had not been probed earlier.
We find perfect agreement with the theoretical predictions, and we are able to
set stringent constraints on two parameters of the parametrised post-Newtonian
formalism.Comment: Accepted for publication in A&
Absolute dimensions and apsidal motion of the eclipsing binaries V889 Aquilae and V402 Lacertae
Context. Double-lined eclipsing binaries allow the direct determination of masses and radii, which are key for testing stellar models. With the launch of the TESS mission, many well-known eclipsing binaries have been observed at higher photometric precision, permitting the improvement of the absolute dimension determinations. Aims. Using TESS data and newly obtained spectroscopic observations, we aim to determine the masses and radii of the eccentric eclipsing binary systems V889 Aql and V402 Lac, together with their apsidal motion parameters. Methods. We simultaneously modelled radial velocity curves and times of eclipse for each target to precisely determine the orbital parameters of the systems, which we used to analyse the light curves and then obtain their absolute dimensions. We compared the obtained values with those predicted by theoretical models. Results. We determined masses and radii of the components of both systems with relative uncertainties lower than 2%. V889 Aql is composed of two stars with masses 2:17±0:02 M⊙ and 2:13±0:01 M⊙ and radii 1:87±0:04 R⊙ and 1:85±0:04 R⊙.We find conclusive evidence of the presence of a third body orbiting V889 Aql with a period of 67 yr. Based on the detected third light and the absence of signal in the spectra, we suggest that this third body could in turn be a binary composed of two ±1.4 M⊙ stars. V402 Lac is composed of two stars with masses 2:80 ± 0:05 M⊙ and 2:78 ± 0:05 M⊙ and radii 2:38 ± 0:03 R⊙ and 2:36 ± 0:03 R⊙. The times of minimum light are compatible with the presence of a third body for this system too, although its period is not yet fully sampled. In both cases we have found a good agreement between the observed apsidal motion rates and the model predictions
The CARMENES search for exoplanets around M dwarfs: Nine new double-line spectroscopic binary stars
Context. The CARMENES spectrograph is surveying ~300 M dwarf stars in search
for exoplanets. Among the target stars, spectroscopic binary systems have been
discovered, which can be used to measure fundamental properties of stars. Aims.
Using spectroscopic observations, we determine the orbital and physical
properties of nine new double-line spectroscopic binary systems by analysing
their radial velocity curves. Methods. We use two-dimensional cross-correlation
techniques to derive the radial velocities of the targets, which are then
employed to determine the orbital properties. Photometric data from the
literature are also analysed to search for possible eclipses and to measure
stellar variability, which can yield rotation periods. Results. Out of the 342
stars selected for the CARMENES survey, 9 have been found to be double-line
spectroscopic binaries, with periods ranging from 1.13 to ~8000 days and orbits
with eccentricities up to 0.54. We provide empirical orbital properties and
minimum masses for the sample of spectroscopic binaries. Absolute masses are
also estimated from mass-luminosity calibrations, ranging between ~0.1 and ~0.6
Msol . Conclusions. These new binary systems increase the number of double-line
M dwarf binary systems with known orbital parameters by 15%, and they have
lower mass ratios on average.Comment: Accepted for publication in A&A. 17 pages, 4 figure
A Machine Learning approach for correcting radial velocities using physical observables
Precision radial velocity (RV) measurements continue to be a key tool to
detect and characterise extrasolar planets. While instrumental precision keeps
improving, stellar activity remains a barrier to obtain reliable measurements
below 1-2 m/s accuracy. Using simulations and real data, we investigate the
capabilities of a Deep Neural Network approach to produce activity free Doppler
measurements of stars. As case studies we use observations of two known stars
(Eps Eridani and AUMicroscopii), both with clear signals of activity induced RV
variability. Synthetic data using the starsim code are generated for the
observables (inputs) and the resulting RV signal (labels), and used to train a
Deep Neural Network algorithm. We identify an architecture consisting of
convolutional and fully connected layers that is adequate to the task. The
indices investigated are mean line-profile parameters (width, bisector,
contrast) and multi-band photometry. We demonstrate that the RV-independent
approach can drastically reduce spurious Doppler variability from known
physical effects such as spots, rotation and convective blueshift. We identify
the combinations of activity indices with most predictive power. When applied
to real observations, we observe a good match of the correction with the
observed variability, but we also find that the noise reduction is not as good
as in the simulations, probably due to the lack of detail in the simulated
physics. We demonstrate that a model-driven machine learning approach is
sufficient to clean Doppler signals from activity induced variability for well
known physical effects. There are dozens of known activity related observables
whose inversion power remains unexplored indicating that the use of additional
indicators, more complete models, and more observations with optimised sampling
strategies can lead to significant improvements in our detrending capabilities
The CARMENES search for exoplanets around M dwarfs: Convective shift and starspot constraints from chromatic radial velocities
Context. Variability caused by stellar activity represents a challenge to the
discovery and characterization of terrestrial exoplanets and complicates the
interpretation of atmospheric planetary signals.
Aims. We aim to use a detailed modeling tool to reproduce the effect of
active regions on radial velocity measurements, which aids the identification
of the key parameters that have an impact on the induced variability.
Methods. We analyzed the effect of stellar activity on radial velocities as a
function of wavelength by simulating the impact of the properties of spots,
shifts induced by convective motions, and rotation. We focused our modeling
effort on the active star YZ CMi (GJ 285), which was photometrically and
spectroscopically monitored with CARMENES and the Telescopi Joan Or\'o.
Results. We demonstrate that radial velocity curves at different wavelengths
yield determinations of key properties of active regions, including spot
filling factor, temperature contrast, and location, thus solving the degeneracy
between them. Most notably, our model is also sensitive to convective motions.
Results indicate a reduced convective shift for M dwarfs when compared to
solar-type stars (in agreement with theoretical extrapolations) and points to a
small global convective redshift instead of blueshift.
Conclusions. Using a novel approach based on simultaneous chromatic radial
velocities and light curves, we can set strong constraints on stellar activity,
including an elusive parameter such as the net convective motion effect.Comment: A&A, in pres
High-rate low-temperature dc pulsed magnetron sputtering of photocatalytic TiO2films: the effect of repetition frequency
The article reports on low-temperature high-rate sputtering of hydrophilic transparent TiO2thin films using dc dual magnetron (DM) sputtering in Ar + O2mixture on unheated glass substrates. The DM was operated in a bipolar asymmetric mode and was equipped with Ti(99.5) targets of 50 mm in diameter. The substrate surface temperature Tsurfmeasured by a thermostrip was less than 180 °C for all experiments. The effect of the repetition frequency frwas investigated in detail. It was found that the increase of frfrom 100 to 350 kHz leads to (a) an improvement of the efficiency of the deposition process that results in a significant increase of the deposition rate aDof sputtered TiO2films and (b) a decrease of peak pulse voltage and sustaining of the magnetron discharge at higher target power densities. It was demonstrated that several hundreds nm thick hydrophilic TiO2films can be sputtered on unheated glass substrates at aD = 80 nm/min, Tsurf < 180 °C when high value of fr = 350 kHz was used. Properties of a thin hydrophilic TiO2film deposited on a polycarbonate substrate are given
Спостереження як метод державного фінансового контролю за сплатою податків суб'єктами малого підприємництва
У статті проаналізовано особливості державного контролю за діяльністю суб’єктів малого підприємництва. Наведено авторське визначення методу спостереження в державному фінансовому контролі за сплатою податків та обґрунтовано доцільність його застосування в перспективі.
(The features of state control over the activities of small businesses are analyzed. The author’s definition of the method of monitoring in the state financial control over tax payments is given, and the expedience for its use in the prospects is grounded.
Widespread detection of highly pathogenic H5 influenza viruses in wild birds from the Pacific Flyway of the United States
A novel highly pathogenic avian influenza virus belonging to the H5 clade 2.3.4.4 variant viruses was detected in North America in late 2014. Motivated by the identification of these viruses in domestic poultry in Canada, an intensive study was initiated to conduct highly pathogenic avian influenza surveillance in wild birds in the Pacific Flyway of the United States. A total of 4,729 hunter-harvested wild birds were sampled and highly pathogenic avian influenza virus was detected in 1.3% (n = 63). Three H5 clade 2.3.4.4 subtypes were isolated from wild birds, H5N2, H5N8, and H5N1, representing the wholly Eurasian lineage H5N8 and two novel reassortant viruses. Testing of 150 additional wild birds during avian morbidity and mortality investigations in Washington yielded 10 (6.7%) additional highly pathogenic avian influenza isolates (H5N8 = 3 and H5N2 = 7). The geographically widespread detection of these viruses in apparently healthy wild waterfowl suggest that the H5 clade 2.3.4.4 variant viruses may behave similarly in this taxonomic group whereby many waterfowl species are susceptible to infection but do not demonstrate obvious clinical disease. Despite these findings in wild waterfowl, mortality has been documented for some wild bird species and losses in US domestic poultry during the first half of 2015 were unprecedented
The CARMENES search for exoplanets around M dwarfs, Wolf 1069 b: Earth-mass planet in the habitable zone of a nearby, very low-mass star
We present the discovery of an Earth-mass planet () on a 15.6d orbit of a relatively nearby (9.6pc)
and low-mass () M5.0V star, Wolf 1069. Sitting at a
separation of au away from the host star puts Wolf 1069b in
the habitable zone (HZ), receiving an incident flux of
. The planetary signal was detected using
telluric-corrected radial-velocity (RV) data from the CARMENES spectrograph,
amounting to a total of 262 spectroscopic observations covering almost four
years. There are additional long-period signals in the RVs, one of which we
attribute to the stellar rotation period. This is possible thanks to our
photometric analysis including new, well-sampled monitoring campaigns undergone
with the OSN and TJO facilities that supplement archival photometry (i.e., from
MEarth and SuperWASP), and this yielded an updated rotational period range of
d, with a likely value at d. The stellar
activity indicators provided by the CARMENES spectra likewise demonstrate
evidence for the slow rotation period, though not as accurately due to possible
factors such as signal aliasing or spot evolution. Our detectability limits
indicate that additional planets more massive than one Earth mass with orbital
periods of less than 10 days can be ruled out, suggesting that perhaps Wolf
1069 b had a violent formation history. This planet is also the 6th closest
Earth-mass planet situated in the conservative HZ, after Proxima Centauri b, GJ
1061d, Teegarden's Star c, and GJ 1002 b and c. Despite not transiting, Wolf
1069b is nonetheless a very promising target for future three-dimensional
climate models to investigate various habitability cases as well as for
sub-ms RV campaigns to search for potential inner sub-Earth-mass planets
in order to test planet formation theories.Comment: 26 pages, 15 figure
The CARMENES search for exoplanets around M dwarfs
Context. The CARMENES instrument, installed at the 3.5 m telescope of the Calar Alto Observatory in Almería, Spain, was conceived to deliver high-accuracy radial velocity (RV) measurements with long-term stability to search for temperate rocky planets around a sample of nearby cool stars. Moreover, the broad wavelength coverage was designed to provide a range of stellar activity indicators to assess the nature of potential RV signals and to provide valuable spectral information to help characterise the stellar targets.
Aims: We describe the CARMENES guaranteed time observations (GTO), spanning from 2016 to 2020, during which 19 633 spectra for a sample of 362 targets were collected. We present the CARMENES Data Release 1 (DR1), which makes public all observations obtained during the GTO of the CARMENES survey.
Methods: The CARMENES survey target selection was aimed at minimising biases, and about 70% of all known M dwarfs within 10 pc and accessible from Calar Alto were included. The data were pipeline-processed, and high-level data products, including 18 642 precise RVs for 345 targets, were derived. Time series data of spectroscopic activity indicators were also obtained.
Results: We discuss the characteristics of the CARMENES data, the statistical properties of the stellar sample, and the spectroscopic measurements. We show examples of the use of CARMENES data and provide a contextual view of the exoplanet population revealed by the survey, including 33 new planets, 17 re-analysed planets, and 26 confirmed planets from transiting candidate follow-up. A subsample of 238 targets was used to derive updated planet occurrence rates, yielding an overall average of 1.44 ± 0.20 planets with 1 M⊕ < Mpl sin i < 1000 M⊕ and 1 day < Porb < 1000 days per star, and indicating that nearly every M dwarf hosts at least one planet. All the DR1 raw data, pipeline-processed data, and high-level data products are publicly available online.
Conclusions: CARMENES data have proven very useful for identifying and measuring planetary companions. They are also suitable for a variety of additional applications, such as the determination of stellar fundamental and atmospheric properties, the characterisation of stellar activity, and the study of exoplanet atmospheres
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