33 research outputs found
In-situ analysis of optically thick nanoparticle clouds
Nanoparticles grown in reactive plasmas and nanodusty plasmas gain high
interest from basic science and technology. One of the great challenges of
nanodusty plasmas is the in-situ diagnostic of the nanoparticle size and
refractive index. The analysis of scattered light by means of the Mie solution
of the Maxwell equations was proposed and used as an in-situ size diagnostic
during the past two decades. Today, imaging ellipsometry techniques and the
investigation of dense, i. e. optically thick nanoparticle clouds demand for
analysis methods to take multiple scattering into account. We present the first
3D Monte-Carlo polarized radiative transfer simulations of the scattered light
in a dense nanodusty plasma. This technique extends the existing diagnostic
methods for the in-situ analysis of the properties of nanoparticles to systems
where multiple scattering can not be neglected.Comment: 5 pages, 5 figure
Dusty disk winds at the sublimation rim of the highly inclined, low mass YSO SU Aurigae
T Tauri stars are low-mass young stars whose disks provide the setting for
planet formation. Despite this, their structure is poorly understood. We
present new infrared interferometric observations of the SU Aurigae
circumstellar environment that offer 3 x higher resolution and better baseline
position angle coverage over previous observations. We investigate the
characteristics of circumstellar material around SU Aur, constrain the disk
geometry, composition and inner dust rim structure. The CHARA array offers
opportunities for long baseline observations, with baselines up to 331 m. Using
the CLIMB 3-telescope combiner in the K-band allows us to measure visibilities
as well as closure phase. We undertook image reconstruction for
model-independent analysis, and geometric modeling. Additionally, the fitting
of radiative transfer models constrains the physical parameters of the disk.
For the first time, a dusty disk wind is introduced to the radiative transfer
code TORUS to model protoplanetary disks. Our implementation is motivated by
theoretical dusty disk winds, where magnetic field lines drive dust above the
disk plane close to the sublimation zone. Image reconstruction reveals an
inclined disk with slight asymmetry along its minor-axis, likely due to
inclination effects obscuring the inner disk rim through absorption of incident
star light on the near-side and thermal re-emission/scattering of the far-side.
Geometric modelling of a skewed ring finds the inner rim at 0.17+/-0.02 au with
an inclination of 50.9+/-1.0 degrees and minor axis position angle 60.8+/-1.2
degrees. Radiative transfer modelling shows a flared disk with an inner radius
at 0.18 au which implies a grain size of 0.4 um and a scale height of 15.0 au
at 100 au. Among the tested radiative transfer models, only the dusty disk wind
successfully accounts for the K-band excess by introducing dust above the
mid-plane.Comment: Accepted for publication in Astronomy \& Astrophysic
MIRC-X: a highly-sensitive six telescope interferometric imager at the CHARA Array
MIRC-X (Michigan InfraRed Combiner-eXeter) is a new highly-sensitive
six-telescope interferometric imager installed at the CHARA Array that provides
an angular resolution equivalent of up to a 330 m diameter baseline telescope
in J and H band wavelengths ( milli-arcseconds). We
upgraded the original MIRC (Michigan InfraRed Combiner) instrument to improve
sensitivity and wavelength coverage in two phases. First, a revolutionary
sub-electron noise and fast-frame rate C-RED ONE camera based on a SAPHIRA
detector was installed. Second, a new-generation beam combiner was designed and
commissioned to (i) maximize sensitivity, (ii) extend the wavelength coverage
to J-band, and (iii) enable polarization observations. A low-latency and
fast-frame rate control software enables high-efficiency observations and
fringe tracking for the forthcoming instruments at CHARA Array. Since mid-2017,
MIRC-X has been offered to the community and has demonstrated best-case H-band
sensitivity down to 8.2 correlated magnitude. MIRC-X uses single-mode fibers to
coherently combine light of six telescopes simultaneously with an image-plane
combination scheme and delivers a visibility precision better than 1%, and
closure phase precision better than . MIRC-X aims at (i) imaging
protoplanetary disks, (ii) detecting exoplanets with precise astrometry, and
(iii) imaging stellar surfaces and star-spots at an unprecedented angular
resolution in the near-infrared. In this paper, we present the instrument
design, installation, operation, and on-sky results, and demonstrate the
imaging and astrometric capability of MIRC-X on the binary system Peg.
The purpose of this paper is to provide a solid reference for studies based on
MIRC-X data and to inspire future instruments in optical interferometry.Comment: 31 pages, 29 figures, accepted for publication in The Astronomical
Journa
Imaging the warped dusty disk wind environment of SU Aurigae with MIRC-X
SU Aurigae is a widely studied T Tauri star and here we present original
state-of-the-art interferometric observations with better uv and baseline
coverage than previous studies. We aim to investigate the characteristics of
the circumstellar material around SU Aur, constrain the disk geometry,
composition and inner dust rim structure. The MIRC-X instrument at CHARA is a 6
telescope optical beam combiner offering baselines up to 331 m. We undertook
image reconstruction for model-independent analysis, and fitted geometric
models such as Gaussian and ring distributions. Additionally, the fitting of
radiative transfer models constrains the physical parameters of the disk. Image
reconstruction reveals a highly inclined disk with a slight asymmetry
consistent with inclination effects obscuring the inner disk rim through
absorption of incident star light on the near-side and thermal
re-emission/scattering of the far-side. Geometric models find that the
underlying brightness distribution is best modelled as a Gaussian with a FWHM
of at an inclination of and minor
axis position angle of . Radiative transfer modelling shows a
flared disk with an inner radius at 0.16 au which implies a grain size of assuming astronomical silicates and a scale height of 9.0 au at
100 au. In agreement with literature, only the dusty disk wind successfully
accounts for the NIR excess by introducing dust above the mid-plane. Our
results confirm and provide better constraints than previous inner disk studies
of SU Aurigae. We confirm the presence of a dusty disk wind in the cicumstellar
environment, the strength of which is enhanced by a late infall event which
also causes very strong misalignments between the inner and outer disks.Comment: arXiv admin note: substantial text overlap with arXiv:2111.06205,
arXiv:1905.1190
Characterising the orbit and circumstellar environment of the high-mass binary MWC 166 A
Context: Stellar evolution models are highly dependent on accurate mass
estimates, especially for high-mass stars in the early stages of evolution. The
most direct method for obtaining model-independent masses is derivation from
the orbit of close binaries. Aims: To derive the first astrometric+RV orbit
solution for the single-lined spectroscopic binary MWC 166 A, based on CHARA
and VLTI near-infrared interferometry over multiple epochs and ~100 archival
radial velocity measurements, and to derive fundamental stellar parameters from
this orbit. We also sought to model circumstellar activity in the system from
K-band spectral lines. Methods: We geometrically modelled the dust continuum to
derive astrometry at 13 epochs and constrain individual stellar parameters. We
used the continuum models as a base to examine differential phases,
visibilities and closure phases over the Br- and He-I emission lines.
Results: Our orbit solution suggests a period of d, twice as long
as found with previous RV orbit fits, subsequently constraining the component
masses to and . The
line-emitting gas was found to be localised around the primary and is spatially
resolved on scales of ~11 stellar radii, with the spatial displacement between
the line wings consistent with a rotating disc. Conclusions: The large radius
and stable orientation of the line emission are inconsistent with
magnetospheric or boundary-layer accretion, but indicate an ionised inner gas
disk around MWC 166 Aa. We observe line variability that could be explained
either with generic line variability in a Herbig star disc or V/R variations in
a decretion disc. We also constrained the age of the system to
~ yr, consistent with the system being comprised of a
main-sequence primary and a secondary still contracting towards the main
sequence.Comment: 24 pages, 19 figures, 7 tables, 1 appendix. Accepted in A&
The Orbits and Dynamical Masses of the Castor System
Castor is a system of six stars in which the two brighter objects, Castor A
and B, revolve around each other every 450 yr and are both short-period
spectroscopic binaries. They are attended by the more distant Castor C, which
is also a binary. Here we report interferometric observations with the CHARA
array that spatially resolve the companions in Castor A and B for the first
time. We complement these observations with new radial velocity measurements of
A and B spanning 30 yr, with the Hipparcos intermediate data, and with existing
astrometric observations of the visual AB pair obtained over the past three
centuries. We perform a joint orbital solution to solve simultaneously for the
three-dimensional orbits of Castor A and B as well as the AB orbit. We find
that they are far from being coplanar: the orbit of A is nearly at right angles
(92 degrees) relative to the wide orbit, and that of B is inclined about 59
degrees compared to AB. We determine the dynamical masses of the four stars in
Castor A and B to a precision better than 1%. We also determine the radii of
the primary stars of both subsystems from their angular diameters measured with
CHARA, and use them together with stellar evolution models to infer an age for
the system of 290 Myr. The new knowledge of the orbits enables us to measure
the slow motion of Castor C as well, which may assist future studies of the
dynamical evolution of this remarkable sextuple system.Comment: 17 pages in emulateapj format, including figures and tables. Accepted
for publication in The Astrophysical Journa
Multiplicity of northern bright O-type stars with optical long baseline interferometry
The study of the multiplicity of massive stars gives hints on their formation
processes and their evolutionary paths, which are still not fully understood.
Large separation binaries (>50 milliseconds of arc, mas) can be probed by
adaptive-optics-assisted direct imaging and sparse aperture masking, while
close binaries can be resolved by photometry and spectroscopy. However, optical
long baseline interferometry is mandatory to establish the multiplicity of
Galactic massive stars at the separation gap between 1 and 50 mas. In this
paper, we aim to demonstrate the capability of the new interferometric
instrument MIRC-X, located at the CHARA Array, to study the multiplicity of
O-type stars and therefore probe the full range of separation for more than 120
massive stars (H<7.5 mag). We initiated a pilot survey of bright O-type stars
(H<6.5mag) observable with MIRC-X. We observed 29 O-type stars, including two
systems in average atmospheric conditions around a magnitude of H=7.5 mag. We
systematically reduced the obtained data with the public reduction pipeline of
the instrument. We analyzed the reduced data using the dedicated python
software CANDID to detect companions. Out of these 29 systems, we resolved 19
companions in 17 different systems with angular separations between ~0.5 and 50
mas. This results in a multiplicity fraction fm=17/29=0.59+/-0.09, and an
average number of companions fc=19/29=0.66+/-0.13. Those results are in
agreement with the results of the SMASH+ survey in the Southern Hemisphere.
Thirteen of these companions have been resolved for the first time, including
the companion responsible for the nonthermal emission in Cyg OB2-5 A and the
confirmation of the candidate companion of HD 47129 suggested by SMASH+. A
large survey on more than 120 northern O-type stars (H<7.5) is possible with
MIRC-X and will be fruitful.Comment: 15 pages, 9 figures, 5 tables, accepted in A&