Your search keyword '"Janson, Markus"' showing total 35 results

1. Imaging of exocomets with infrared interferometry.

Author

Janson, Markus, Patel, Jayshil, Ringqvist, Simon C., Lu, Cicero, Rebollido, Isabel, Lichtenberg, Tim, Brandeker, Alexis, Angerhausen, Daniel, and Noack, Lena

Subjects

*COMETS, *INFRARED imaging, *HALE-Bopp comet, *SPECTRAL imaging, *HABITABLE planets, *INNER planets

Abstract

Active comets have been detected in several exoplanetary systems, although so far only indirectly, when the dust or gas in the extended coma has transited in front of the stellar disk. The large optical surface and relatively high temperature of an active cometary coma also makes it suitable to study with direct imaging, but the angular separation is generally too small to be reachable with present-day facilities. However, future imaging facilities with the ability to detect terrestrial planets in the habitable zones of nearby systems will also be sensitive to exocomets in such systems. Here we examine several aspects of exocomet imaging, particularly in the context of the Large Interferometer for Exoplanets (LIFE), which is a proposed space mission for infrared imaging and spectroscopy through nulling interferometry. We study what capabilities LIFE would have for acquiring imaging and spectroscopy of exocomets, based on simulations of the LIFE performance as well as statistical properties of exocomets that have recently been deduced from transit surveys. We find that for systems with extreme cometary activities such as β Pictoris, sufficiently bright comets may be so abundant that they overcrowd the LIFE inner field of view. More nearby and moderately active systems such as є Eridani or Fomalhaut may turn out to be optimal targets. If the exocomets have strong silicate emission features, such as in comet Hale-Bopp, it may become possible to study the mineralogy of individual exocometary bodies. We also discuss the possibility of exocomets as false positives for planets, with recent deep imaging of α Centauri as one hypothetical example. Such contaminants could be common, primarily among young debris disk stars, but should be rare among the main sequence population. We discuss strategies to mitigate the risk of any such false positives. [ABSTRACT FROM AUTHOR]

Published

2023

2. Occulter to earth: prospects for studying earth-like planets with the E-ELT and a space-based occulter.

Author

Janson, Markus, Henning, Thomas, Quanz, Sascha P., Asensio-Torres, Ruben, Buchhave, Lars, Krause, Oliver, Palle, Enric, and Brandeker, Alexis

Subjects

*HABITABLE planets, *EXTRATERRESTRIAL life, *SURFACE of the earth, *ORBITS (Astronomy), *EXTRASOLAR planets

Abstract

Direct detection and characterization of Earth-like planets around Sun-like stars is a core task for evaluating the prevalence of habitability and life in the Universe. Here, we discuss a promising option for achieving this goal, which is based on placing an occulter in orbit and having it project its shadow onto the E-ELT at the surface of Earth, thus providing a sufficient contrast for imaging and taking spectra of Earth-like planets in the habitable zones of Sun-like stars. Doing so at a sensible fuel budget will require tailored orbits, an occulter with a high area-to-mass ratio, and appropriate instrumentation at the E-ELT. In this White Paper, submitted in response to the ESA Voyage 2050 Call, we outline the fundamental aspects of the concept, and the most important technical developments that will be required to develop a full mission. [ABSTRACT FROM AUTHOR]

Published

2022

3. Updated orbital monitoring and dynamical masses for nearby M-dwarf binaries.

Author

Calissendorff, Per, Janson, Markus, Rodet, Laetitia, Köhler, Rainer, Bonnefoy, Mickaël, Brandner, Wolfgang, Brown-Sevilla, Samantha, Chauvin, Gaël, Delorme, Philippe, Desidera, Silvano, Durkan, Stephen, Fontanive, Clemence, Gratton, Raffaele, Hagelberg, Janis, Henning, Thomas, Hippler, Stefan, Lagrange, Anne-Marie, Langlois, Maud, Lazzoni, Cecilia, and Maire, Anne-Lise

Subjects

*VERY large telescopes, *STELLAR mass, *OPTICAL telescopes, *EVOLUTIONARY models, *STELLAR dynamics, *ECLIPSING binaries

Abstract

Young M-type binaries are particularly useful for precise isochronal dating by taking advantage of their extended pre-main sequence evolution. Orbital monitoring of these low-mass objects becomes essential in constraining their fundamental properties, as dynamical masses can be extracted from their Keplerian motion. Here, we present the combined efforts of the AstraLux Large Multiplicity Survey, together with a filler sub-programme from the SpHere INfrared Exoplanet (SHINE) project and previously unpublished data from the FastCam lucky imaging camera at the Nordical Optical Telescope (NOT) and the NaCo instrument at the Very Large Telescope (VLT). Building on previous work, we use archival and new astrometric data to constrain orbital parameters for 20 M-type binaries. We identify that eight of the binaries have strong Bayesian probabilities and belong to known young moving groups (YMGs). We provide a first attempt at constraining orbital parameters for 14 of the binaries in our sample, with the remaining six having previously fitted orbits for which we provide additional astrometric data and updated Gaia parallaxes. The substantial orbital information built up here for four of the binaries allows for direct comparison between individual dynamical masses and theoretical masses from stellar evolutionary model isochrones, with an additional three binary systems with tentative individual dynamical mass estimates likely to be improved in the near future. We attained an overall agreement between the dynamical masses and the theoretical masses from the isochrones based on the assumed YMG age of the respective binary pair. The two systems with the best orbital constrains for which we obtained individual dynamical masses, J0728 and J2317, display higher dynamical masses than predicted by evolutionary models. [ABSTRACT FROM AUTHOR]

Published

2022

4. Characterising young visual M-dwarf binaries with near-infrared integral field spectra.

Author

Calissendorff, Per, Janson, Markus, and Bonnefoy, Mickaël

Subjects

*INTEGRAL field spectroscopy, *LOW mass stars, *EVOLUTIONARY models, *DWARF stars, *INTEGRALS, *KINEMATICS, *MATHEMATICAL continuum

Abstract

We present the results from an integral field spectroscopy study of seven close visual binary pairs of young M-dwarf multiple systems. The target systems are part of the astrometric monitoring AstraLux programme, surveying hundreds of M-dwarf systems for multiplicity and obtaining astrometric epochs for orbital constraints. Our new VLT/SINFONI data provides resolved spectral type classifications in the J, H, and K bands for seven of these low-mass M-dwarf binaries, which we determine by comparing them to empirical templates and examining the strength of water absorption in the K band. The medium resolution K-band spectra also allows us to derive effective temperatures for the individual components. All targets in the survey display several signs of youth, and some have kinematics similar to young moving groups, or low surface gravities which we determined from measuring equivalent widths of gravity sensitive alkali lines in the J band. Resolved photometry from our targets is also compared with isochrones from theoretical evolutionary models, further implying young ages. Dynamical masses will be provided from continued monitoring of these systems, which can be seen as emblematic binary benchmarks that may be used to calibrate evolutionary models for low-mass stars in the future. [ABSTRACT FROM AUTHOR]

Published

2020

5. Detection of new strongly variable brown dwarfs in the L/T transition.

Author

Eriksson, Simon C., Janson, Markus, and Calissendorff, Per

Subjects

*BROWN dwarf stars, *OPTICAL telescopes, *DWARF stars, *GAS giants, *LIGHT curves, *ATMOSPHERIC models, *POISSON processes

Abstract

Context. Brown dwarfs in the spectral range L9–T3.5, within the so called L/T transition, have been shown to be variable at higher amplitudes and with greater frequency than other field dwarfs. This strong variability allows for the probing of their atmospheric structure in 3D through multi-wavelength observations for studying the underlying physical mechanisms responsible for the variability. The few known strongly variable dwarfs in this range have been extensively studied. Now, more variables such as these need to be discovered and studied to better constrain atmospheric models. This is also critical to better understand giant exoplanets and to shed light on a number of possible correlations between brown dwarf characteristics and variability. Aims. Previous studies suggest an occurrence rate for strong variability (peak-to-peak amplitudes > 2%) of up to ∼39% among brown dwarfs within the L/T transition. In this work, we aim to discover new strong variables in this spectral range by targeting ten previously unsurveyed brown dwarfs. Methods. We used the NOTCam at the Nordic Optical Telescope to observe 11 targets, with spectral types ranging from L9.5 to T3.5, in the J-band during October 2017 and September 2018. Using differential aperture photometry, we then analysed the light curves for significant variability using Lomb-Scargle periodogram algorithms and least squares fitting. Results. We report first discoveries of strong and significant variability in four out of the ten targets (false alarm probability < 0.1%), measuring peak-to-peak amplitudes up to 10.7 ± 0.4% in J for the T1 dwarf 2MASS J22153705+2110554, for which we observe significant light curve evolution between the 2017 and 2018 epochs. We also report a marginally significant detection of strong variability, and confirm that the well known 2MASS J01365662+0933473 is still strongly variable three years after the last reported epoch. Finally, we present an extensive multi-epoch catalogue of strong variables reported in the literature and discuss possible correlations that are identifiable from the catalogue. Conclusions. We significantly add to the number of known strong variables, and through Poisson statistics infer an occurrence rate for strong variability among L9–T3.5 brown dwarfs of 40 +32−19 40 − 19 + 32 $ {40}^{+32}_{-19} $ %, which is in agreement with previous estimates. The new variables identified in this work are also excellently suited for extensive multi-wavelength observations dedicated to probing the 3D structure of brown dwarf atmospheres. [ABSTRACT FROM AUTHOR]

Published

2019

6. Spectral characterization of newly detected young substellar binaries with SINFONI.

Author

Calissendorff, Per, Janson, Markus, Asensio-Torres, Rubén, and Köhler, Rainer

Subjects

*BROWN dwarf stars, *ADAPTIVE optics, *EVOLUTIONARY models, *DYNAMICAL systems, *AGE of stars, *SPECTROGRAPHS

Abstract

We observe 14 young low-mass substellar objects using the VLT/SINFONI integral field spectrograph with laser guide star adaptive optics to detect and characterize three candidate binary systems. All three binary candidates show strong signs of youth, with two of them likely belonging to young moving groups. Together with the adopted young-moving-group ages we employ isochrones from the BT-Settle CIFIST substellar evolutionary models to estimate individual masses for the binary components. We find 2MASS J15104786–2818174 to be part of the ≈30−50 Myr Argus moving group and to be composed of a 34−48 MJup primary brown dwarf with spectral type M9γ and a fainter 15−22 MJup companion, separated by ≈100 mas. 2MASS J22025794–5605087 is identified as an almost equal-mass binary in the AB Dor moving group, with a projected separation of ≈60 mas. Both components share spectral type M9γ/β, which with the adopted age of 120−200 Myr yields masses in the range of 50−68 MJup for each component individually. The observations of 2MASS J15474719–2423493 are of lower quality and we obtain no spectral characterization for the target, but resolve two components separated by ≈170 mas which with the predicted young field age of 30−50 Myr yields individual masses below 20 MJup. Out of the three candidate binary systems, 2MASS J22025794–5605087 has unambiguous spectroscopic signs of being a bona-fide binary, while the other two will require second-epoch confirmation. The small projected separations between the binary components correspond to physical separations of ≈4−7 AU, meaning that astrometric monitoring of just a few years would be adequate to generate constrained orbital fits and dynamical masses for the systems. In combination with their young ages, these binaries will prove to be excellent benchmarks for calibrating substellar evolutionary models down to a very low-mass regime. [ABSTRACT FROM AUTHOR]

Published

2019

7. The B-Star Exoplanet Abundance Study: a co-moving 16–25 MJup companion to the young binary system HIP 79098.

Author

Janson, Markus, Asensio-Torres, Ruben, André, Damien, Bonnefoy, Mickaël, Delorme, Philippe, Reffert, Sabine, Desidera, Silvano, Langlois, Maud, Chauvin, Gaël, Gratton, Raffaele, Bohn, Alexander J., Eriksson, Simon C., Marleau, Gabriel-Dominique, Mamajek, Eric E., Vigan, Arthur, and Carson, Joseph C.

Subjects

*BROWN dwarf stars, *ASTROMETRY, *SUPERGIANT stars, *MOTION analysis, *STELLAR mass, *ARTIFICIAL satellites

Abstract

Wide low-mass substellar companions are known to be very rare among low-mass stars, but appear to become increasingly common with increasing stellar mass. However, B-type stars, which are the most massive stars within ~150 pc of the Sun, have not yet been examined to the same extent as AFGKM-type stars in that regard. In order to address this issue, we launched the ongoing B-star Exoplanet Abundance Study (BEAST) to examine the frequency and properties of planets, brown dwarfs, and disks around B-type stars in the Scorpius-Centaurus (Sco-Cen) association; we also analyzed archival data of B-type stars in Sco-Cen. During this process, we identified a candidate substellar companion to the B9-type spectroscopic binary HIP 79098 AB, which we refer to as HIP 79098 (AB)b. The candidate had been previously reported in the literature, but was classified as a background contaminant on the basis of its peculiar colors. Here we demonstrate that the colors of HIP 79098 (AB)b are consistent with several recently discovered young and low-mass brown dwarfs, including other companions to stars in Sco-Cen. Furthermore, we show unambiguous common proper motion over a 15-yr baseline, robustly identifying HIP 79098 (AB)b as a bona fide substellar circumbinary companion at a 345 ± 6 AU projected separation to the B9-type stellar pair. With a model-dependent mass of 16–25 MJup yielding a mass ratio of <1%, HIP 79098 (AB)b joins a growing number of substellar companions with planet-like mass ratios around massive stars. Our observations underline the importance of common proper motion analysis in the identification of physical companionship, and imply that additional companions could potentially remain hidden in the archives of purely photometric surveys. [ABSTRACT FROM AUTHOR]

Published

2019

8. M-dwarf binaries as tracers of star and brown dwarf formation.

Author

Marks, Michael, Janson, Markus, Kroupa, Pavel, Leigh, Nathan, and Thies, Ingo

Subjects

*BINARY stars, *DWARF stars, *STELLAR evolution, *ASTRONOMICAL surveys, *DATA analysis

Abstract

The separation distribution for M-dwarf binaries in the AstraLux survey is narrower and peaking at smaller separations than the distribution for solar-type binaries. This is often interpreted to mean that M-dwarfs constitute a continuous transition from brown dwarfs (BDs) to stars. Here, a prediction for the M-dwarf separation distribution is presented, using a dynamical population synthesis (DPS) model in which 'star-like' binaries with late-type primaries (≲1.5Mʘ) follow universal initial distribution functions and are dynamically processed in their birth embedded clusters. A separate 'BD-like' population has both its own distribution functions for binaries and initial mass function (IMF), which overlaps in mass with the IMF for stars. Combining these two formation modes results in a peak on top of a wider separation distribution for late M-dwarfs consistent with the late AstraLux sample. The DPS separation distribution for early M-dwarfs shows no such peak and is in agreement with the M-dwarfs in Multiples (MinMS) data. We note that the latter survey is potentially in tension with the early AstraLux data. Concluding, the AstraLux and MinMS data are unable to unambiguously distinguish whether or not BDs are a continuous extension of the stellar IMF. Future observational efforts are needed to fully answer this interesting question. The DPS model predicts that binaries outside the sensitivity range of the AstraLux survey remain to be detected. For application to future data, we present a means to observationally measure the overlap of the putative BD-like branch and the stellar branch. We discuss the meaning of universal star formation and distribution functions. [ABSTRACT FROM AUTHOR]

Published

2015

9. M-dwarf binaries as tracers of star and brown dwarf formation.

Author

Marks, Michael, Janson, Markus, Kroupa, Pavel, Leigh, Nathan, and Thies, Ingo

Subjects

*DWARF stars, *BINARY stars, *STAR formation, *STELLAR populations, *ASTRONOMICAL surveys

Abstract

The separation distribution for M-dwarf binaries in the AstraLux survey is narrower and peaking at smaller separations than the distribution for solar-type binaries. This is often interpreted to mean that M-dwarfs constitute a continuous transition from brown dwarfs (BDs) to stars. Here, a prediction for the M-dwarf separation distribution is presented, using a dynamical population synthesis (DPS) model in which 'star-like' binaries with late-type primaries (≲1.5 M⊙) follow universal initial distribution functions and are dynamically processed in their birth embedded clusters. A separate 'BD-like' population has both its own distribution functions for binaries and initial mass function (IMF), which overlaps in mass with the IMF for stars. Combining these two formation modes results in a peak on top of a wider separation distribution for late M-dwarfs consistent with the late AstraLux sample. The DPS separation distribution for early M-dwarfs shows no such peak and is in agreement with the M-dwarfs in Multiples (MinMS) data. We note that the latter survey is potentially in tension with the early AstraLux data. Concluding, the AstraLux and MinMS data are unable to unambiguously distinguish whether or not BDs are a continuous extension of the stellar IMF. Future observational efforts are needed to fully answer this interesting question. The DPS model predicts that binaries outside the sensitivity range of the AstraLux survey remain to be detected. For application to future data, we present a means to observationally measure the overlap of the putative BD-like branch and the stellar branch. We discuss the meaning of universal star formation and distribution functions. [ABSTRACT FROM AUTHOR]

Published

2015

10. High-contrast imaging with Spitzer: deep observations of Vega, Fomalhaut, and ∊ Eridani.

Author

Janson, Markus, Quanz, Sascha P., Carson, Joseph C., Thalmann, Christian, Lafrenière, David, and Amara, Adam

Subjects

*EXTRASOLAR planets, *BRIGHTEST stars, *SPACE debris, *DISKS (Astrophysics), *VARIABLE stars, *JUPITER (Planet), *ASTRONOMICAL image processing

Abstract

Stars with debris disks are intriguing targets for direct-imaging exoplanet searches, owing both to previous detections of wide planets in debris disk systems, and to commonly existing morphological features in the disks themselves that may be indicative of a planetary influence. Here we present observations of three of the most nearby young stars, which are also known to host massive debris disks: Vega, Fomalhaut, and ∊ Eri. The Spitzer Space Telescope is used at a range of orientation angles for each star to supply a deep contrast through angular differential imaging combined with high-contrast algorithms. The observations provide the opportunity to probe substantially colder bound planets (120-330 K) than is possible with any other technique or instrument. For Vega, some apparently very red candidate point sources detected in the 4.5 Ìm image remain to be tested for common proper motion. The images are sensitive to ~2 Mjup companions at 150 AU in this system. The observations presented here represent the first search for planets around Vega using Spitzer. The upper 4.5 μm flux limit on Fomalhaut b could be further constrained relative to previous data. In the case of ∊ Eri, planets below both the effective temperature and the mass of Jupiter could be probed from 80 AU and outward, although no such planets were found. The data sensitively probe the regions around the edges of the debris rings in the systems where planets can be expected to reside. These observations validate previous results showing that more than an order of magnitude improvement in performance in the contrast-limited regime can be acquired with respect to conventional methods by applying sophisticated high-contrast techniques to space-based telescopes, thanks to the high degree of PSF stability provided in this environment. [ABSTRACT FROM AUTHOR]

Published

2015

11. 4-micron Direct Imaging Searches for Planets Around [variant_greek_epsilon] Eri and [variant_greek_epsilon] Ind.

Author

Janson, Markus

Subjects

*IMAGING systems, *STELLAR parallax, *SOLAR system, *PLANETS, *MASS (Physics)

Abstract

At distances of only 3.3 and 3.6 pc respectively, [variant_greek_epsilon] Eri and [variant_greek_epsilon] Ind are two of the closest solar-type stars. In addition, they both exhibit long-term radial velocity (RV) trends indicative of planetary companions at relatively large separations, making them interesting for the purpose of direct imaging. Previously, we have reported the results of a deep imaging campaign of [variant_greek_epsilon] Eri at 4 microns, which, in combination with dynamical data, led to the exclusion of any planets more massive than 3 Mjup anywhere in the system. Here, we will briefly review those results, as well as the results using the same method for [variant_greek_epsilon] Ind A, where the massive planet or low-mass brown dwarf implied by the RV trend was undetected, and similar constraints could be determined on the system parameters. [ABSTRACT FROM AUTHOR]

Published

2009

12. A SYSTEMATIC SEARCH FOR TROJAN PLANETS IN THE KEPLER DATA.

Author

JANSON, MARKUS

Subjects

*KEPLER'S laws, *TELESCOPES, *PLANETARY surfaces, *ATMOSPHERIC circulation, *RESONANCE

Abstract

Trojans are circumstellar bodies that reside in characteristic 1:1 orbital resonances with planets. While all the trojans in our solar system are small (⩽100 km), stable planet-size trojans may exist in extrasolar planetary systems, and the Kepler telescope constitutes a formidable tool to search for them. Here we report on a systematic search for extrasolar trojan companions to 2244 known Kepler Objects of Interest (KOIs), with epicyclic orbital characteristics similar to those of the Jovian trojan families. No convincing trojan candidates are found, despite a typical sensitivity down to Earth-size objects. This fact, however, cannot be used to stringently exclude the existence of trojans in this size range, since stable trojans need not necessarily share the same orbital plane as the planet, and thus may not transit. Following this reasoning, we note that if Earth-sized trojans exist at all, they are almost certainly both present and in principle detectable in the full set of Kepler data, although a very substantial computational effort would be required to detect them. Additionally, we also note that some of the existing KOIs could in principle be trojans themselves, with a primary planet orbiting outside of the transiting plane. A few examples are given for which this is a readily testable scenario. [ABSTRACT FROM AUTHOR]

Published

2013

13. A MULTIPLICITY CENSUS OF INTERMEDIATE-MASS STARS IN SCORPIUS–CENTAURUS.

Author

JANSON, MARKUS, LAFRENIÈRE, DAVID, JAYAWARDHANA, RAY, BONAVITA, MARIANGELA, GIRARD, JULIEN H., BRANDEKER, ALEXIS, and GIZIS, JOHN E.

Subjects

*STELLAR mass, *STAR observations, *F stars, *A stars, *BROWN dwarf stars, *GEMINI (Constellation)

Abstract

Stellar multiplicity properties have been studied for the lowest and the highest stellar masses, but intermediate-mass stars from F-type to late A-type have received relatively little attention. Here, we report on a Gemini/NICI snapshot imaging survey of 138 such stars in the young Scorpius–Centaurus (Sco–Cen) region, for the purpose of studying multiplicity with sensitivity down to planetary masses at wide separations. In addition to two brown dwarfs and a companion straddling the hydrogen-burning limit which we reported previously, here we present 26 new stellar companions and determine a multiplicity fraction within 0''.1–5''.0 of 21% ± 4%. Depending on the adopted semimajor axis distribution, our results imply a total multiplicity in the range of∼60%–80%, which further supports the known trend of a smooth continuous increase in the multiplicity fraction as a function of primary stellar mass. A surprising feature in the sample is a distinct lack of nearly equal-mass binaries, for which we discuss possible reasons. The survey yielded no additional companions below or near the deuterium-burning limit, implying that their frequency at >200 AU separations is not quite as high as might be inferred from previous detections of such objects within the Sco–Cen region. [ABSTRACT FROM AUTHOR]

Published

2013

14. THE SEEDS DIRECT IMAGING SURVEY FOR PLANETS AND SCATTERED DUST EMISSION IN DEBRIS DISK SYSTEMS.

Author

JANSON, MARKUS, BRANDT, TIMOTHY D., MORO-MARTÍN, AMAYA, USUDA, TOMONORI, THALMANN, CHRISTIAN, CARSON, JOSEPH C., GOTO, MIWA, CURRIE, THAYNE, MCELWAIN, M. W., ITOH, YOICHI, FUKAGAWA, MISATO, CREPP, JUSTIN, KUZUHARA, MASAYUKI, HASHIMOTO, JUN, KUDO, TOMOYUKI, KUSAKABE, NOBUHIKO, ABE, LYU, BRANDNER, WOLFGANG, EGNER, SEBASTIAN, and FELDT, MARKUS

Subjects

*PROPER motion of stars, *INTERPLANETARY dust, *COSMIC dust, *SPECTRAL energy distribution, *ASTROPHYSICS

Abstract

Debris disks around young main-sequence stars often have gaps and cavities which for a long time have been interpreted as possibly being caused by planets. In recent years, several giant planet discoveries have been made in systems hosting disks of precisely this nature, further implying that interactions with planets could be a common cause of such disk structures. As part of the SEEDS high-contrast imaging survey, we are surveying a population of debris-disk-hosting stars with gaps and cavities implied by their spectral energy distributions, in order to attempt to spatially resolve the disk as well as to detect any planets that may be responsible for the disk structure. Here, we report on intermediate results from this survey. Five debris disks have been spatially resolved, and a number of faint point sources have been discovered, most of which have been tested for common proper motion, which in each case has excluded physical companionship with the target stars. From the detection limits of the 50 targets that have been observed, we find that β Pic b-like planets (~10 Mjup planets around G-A-type stars) near the gap edges are less frequent than 15%-30%, implying that if giant planets are the dominant cause of these wide (27 AU on average) gaps, they are generally less massive than β Pic b. [ABSTRACT FROM AUTHOR]

Published

2013

15. INFRARED NON-DETECTION OF FOMALHAUT b: IMPLICATIONS FOR THE PLANET INTERPRETATION.

Author

JANSON, MARKUS, CARSON, JOSEPH C., LAFRENIÈRE, DAVID, SPIEGEL, DAVID S., BENT, JOHN R., and WONG, PALMER

Subjects

*BRIGHTEST stars, *CIRCUMSTELLAR matter, *STARS, *PLANETS, *LIGHT sources

Abstract

The nearby A4-type star Fomalhaut hosts a debris belt in the form of an eccentric ring, which is thought to be caused by dynamical influence from a giant planet companion. In 2008, a detection of a point source inside the inner edge of the ring was reported and was interpreted as a direct image of the planet, named Fomalhaut b. The detection was made at ~600-800 nm, but no corresponding signatures were found in the near-infrared range, where the bulk emission of such a planet should be expected. Here, we present deep observations of Fomalhaut with Spitzer/IRAC at 4.5μm, using a novel point-spread function subtraction technique based on angular differential imaging and Locally Optimized Combination of Images, in order to substantially improve the Spitzer contrast at small separations. The results provide more than an order of magnitude improvement in the upper flux limit of Fomalhaut b and exclude the possibility that any flux from a giant planet surface contributes to the observed flux at visible wavelengths. This renders any direct connection between the observed light source and the dynamically inferred giant planet highly unlikely. We discuss several possible interpretations of the total body of observations of the Fomalhaut system and find that the interpretation that best matches the available data for the observed source is scattered light from a transient or semi-transient dust cloud. [ABSTRACT FROM AUTHOR]

Published

2012

16. HOW DO MOST PLANETS FORM?--CONSTRAINTS ON DISK INSTABILITY FROM DIRECT IMAGING.

Author

Janson, Markus, Bonavita, Mariangela, Klahr, Hubert, and Lafrenière, David

Subjects

*PLANETS, *BROWN dwarf stars, *STARS, *DWARF stars, *EXTRASOLAR planets

Abstract

Core accretion and disk instability have traditionally been regarded as the two competing possible paths of planet formation. In recent years, evidence has accumulated in favor of core accretion as the dominant mode, at least for close-in planets. However, it might be hypothesized that a significant population of wide planets formed by disk instabilities could exist at large separations, forming an invisible majority. In previous work, we addressed this issue through a direct imaging survey of B2-A0-type stars and concluded that <30% of such stars form and retain planets and brown dwarfs through disk instability, leaving core accretion as the likely dominant mechanism. In this paper, we extend this analysis to FGKM-type stars by applying a similar analysis to the Gemini Deep Planet Survey sample. The results strengthen the conclusion that substellar companions formed and retained around their parent stars by disk instabilities are rare. Specifically, we find that the frequency of such companions is <8% for FGKM-type stars under our most conservative assumptions, for an outer disk radius of 300 AU, at 99% confidence. Furthermore, we find that the frequency is always < 10% at 99% confidence independently of outer disk radius, for any radius from 5 to 500 AU. We also simulate migration at a wide range of rates and find that the conclusions hold even if the companions move substantially after formation. Hence, core accretion remains the likely dominant formation mechanism for the total planet population, for every type of star from M-type through B-type. [ABSTRACT FROM AUTHOR]

Published

2012

17. HIGH-CONTRAST IMAGING SEARCH FOR PLANETS AND BROWN DWARFS AROUND THE MOST MASSIVE STARS IN THE SOLAR NEIGHBORHOOD.

Author

JANSON, MARKUS, BONAVITA, MARIANGELA, KLAHR, HUBERT, LAFRENIÈRE, DAVID, JAYAWARDHANA, RAY, and ZINNECKER, HANS

Subjects

*PLANETS, *BROWN dwarf stars, *STAR formation, *SPECTRUM analysis, *ACCRETION (Astrophysics)

Abstract

There has been a long-standing discussion in the literature as to whether core accretion or disk instability is the dominant mode of planet formation. Over the last decade, several lines of evidence have been presented showing that core accretion is most likely the dominant mechanism for the close-in population of planets probed by radial velocity and transits. However, this does not by itself prove that core accretion is the dominant mode for the total planet population, since disk instability might conceivably produce and retain large numbers of planets in the far-out regions of the disk. If this is a relevant scenario, then the outer massive disks of B-stars should be among the best places for massive planets and brown dwarfs to form and reside. In this study, we present high-contrast imaging of 18 nearby massive stars of which 15 are in the B2-A0 spectral-type range and provide excellent sensitivity to wide companions. By comparing our sensitivities to model predictions of disk instability based on physical criteria for fragmentation and cooling, and using Monte Carlo simulations for orbital distributions, we find that ~85% of such companions should have been detected in our images on average. Given this high degree of completeness, stringent statistical limits can be set from the null-detection result, even with the limited sample size. We find that <30% of massive stars form and retain disk instability planets, brown dwarfs, and very low mass stars of < 100 Mjup within 300 AU, at 99% confidence. These results, combined with previous findings in the literature, lead to the conclusion that core accretion is likely the dominant mode of planet formation. [ABSTRACT FROM AUTHOR]

Published

2011

18. ExoplaNeT accRetion mOnitoring sPectroscopic surveY (ENTROPY): I. Evidence for magnetospheric accretion in the young isolated planetary-mass object 2MASS J11151597+1937266.

Author

Viswanath, Gayathri, Ringqvist, Simon C., Demars, Dorian, Janson, Markus, Bonnefoy, Mickaël, Aoyama, Yuhiko, Marleau, Gabriel-Dominique, Dougados, Catherine, Szulágyi, Judit, and Thanathibodee, Thanawuth

Subjects

*PLANETARY mass, *PARALLAX, *BROWN dwarf stars, *ACCRETION disks, *GAS giants

Abstract

Context. Accretion among planetary mass companions is a poorly understood phenomenon, due to the lack of both observational and theoretical studies. The detection of emission lines from accreting gas giants facilitates detailed investigations into this process. Aims. This work presents a detailed analysis of Balmer lines from one of the few known young, planetary-mass objects with observed emission, the isolated L2γ dwarf 2MASS J11151597+1937266 with a mass between 7 and 21 MJup and an age of 5–45 Myr, located at 45 ± 2 pc. Methods. We obtained the first high-resolution (R ~ 50 000) spectrum of the target with VLT/UVES, an echelle spectrograph operating in the near-ultraviolet to visible wavelengths (3200–6800 Å). Results. We report several resolved hydrogen (H I; H3–H6) and helium (He I; λ5875.6) emission lines in the spectrum. Based on the asymmetric line profiles of Hα and Hβ, the 10% width of Hα (199 ± 1 km s−1), tentative He Iλ6678 emission, and indications of a disk from mid-infrared excess, we confirm ongoing accretion at this object. Using the Gaia update of the parallax, we revise its temperature to 1816 ± 63 K and radius to 1.5 ± 0.1 RJup. Analysis of observed H I profiles using a 1D planet-surface shock model implies a pre-shock gas velocity, v0 = 120−40+ 80 km s−1, and a pre-shock density, log(n0/cm−3) = 14−5+ 0. The pre-shock velocity points to a mass, Mp = 6−4+ 8MJup, for the target. Combining H I line luminosities (Lline) and planetary Lline−Lacc (accretion luminosity) scaling relations, we derived a mass accretion rate, Ṁacc = 1.4−0.9+ 2.8 × 10−8MJup yr−1. Conclusions. The line-emitting area predicted from the planet-surface shock model is very small (~0.03%), and points to a shock at the base of a magnetospherically induced funnel. The Hα profile exhibits a much stronger flux than predicted by the model that best fits the rest of the H I profiles, indicating that another mechanism than shock emission contributes to the Hα emission. Comparison of line fluxes and Ṁacc from archival moderate-resolution SDSS spectra indicate variable accretion at 2MASS J11151597+1937266. [ABSTRACT FROM AUTHOR]

Published

2024

19. Isochronal age-mass discrepancy of young stars: SCExAO/CHARIS integral field spectroscopy of the HIP 79124 triple system.

Author

Asensio-Torres, Ruben, Currie, Thayne, Janson, Markus, Desidera, Silvano, Kuzuhara, Masayuki, Hodapp, Klaus, Brandt, Timothy D., Guyon, Olivier, Lozi, Julien, Groff, Tyler, Kasdin, Jeremy, Chilcote, Jeffrey, Jovanovic, Nemanja, Martinache, Frantz, Sitko, Michael, Serabyn, Eugene, Wagner, Kevin, Akiyama, Eiji, Kwon, Jungmi, and Uyama, Taichi

Subjects

*AGE of stars, *INTEGRAL field spectroscopy, *STARS

Abstract

We present SCExAO/CHARIS 1.1–2.4 μm integral field direct spectroscopy of the young HIP 79124 triple system. HIP 79124 is a member of the Scorpius-Centaurus association, consisting of an A0V primary with two low-mass companions at a projected separation of < 1″. Thanks to the high quality wavefront corrections provided by SCExAO, both companions are decisively detected without the employment of any PSF-subtraction algorithm to eliminate quasi-static noise. The spectrum of the outer C object is very well matched by Upper Scorpius M4 ± 0.5 standard spectra, with a Teff = 2945 ± 100 K and a mass of ∼350 MJup. HIP 79124 B is detected at a separation of only 180 mas in a highly-correlated noise regime, and it falls in the spectral range M6 ± 0.5 with Teff = 2840 ± 190 K and ∼100 MJup. Previous studies of stellar populations in Sco-Cen have highlighted a discrepancy in isochronal ages between the lower-mass and higher-mass populations. This could be explained either by an age spread in the region, or by conventional isochronal models failing to reproduce the evolution of low-mass stars. The HIP 79124 system should be coeval, and therefore it provides an ideal laboratory to test these scenarios. We place the three components in a color–magnitude diagram and find that the models predict a younger age for the two low-mass companions (∼3 Myr) than for the primary star (∼6 Myr). These results imply that the omission of magnetic effects in conventional isochronal models inhibit them from reproducing early low-mass stellar evolution, which is further supported by the fact that new models that include such effects provide more consistent ages in the HIP 79124 system. [ABSTRACT FROM AUTHOR]

Published

2019

20. THE ASTRALUX MULTIPLICITY SURVEY: EXTENSION TO LATE M-DWARFS.

Author

Janson, Markus, Bergfors, Carolina, Brandner, Wolfgang, Kudryavtseva, Natalia, Hormuth, Felix, Hippler, Stefan, and Henning, Thomas

Subjects

*OPTICAL astronomy, *BINARY stars, *DWARF stars, *BROWN dwarf stars, *ASTRONOMICAL surveys, *LOW mass stars

Abstract

The distribution of multiplicity among low-mass stars is a key issue to understanding the formation of stars and brown dwarfs, and recent surveys have yielded large enough samples of nearby low-mass stars to study this issue statistically to good accuracy. Previously, we have presented a multiplicity study of ∼700 early/mid M-type stars observed with the AstraLux high-resolution Lucky Imaging cameras. Here, we extend the study of multiplicity in M-type stars through studying 286 nearby mid/late M-type stars, bridging the gap between our previous study and multiplicity studies of brown dwarfs. Most of the targets have been observed more than once, allowing us to assess common proper motion to confirm companionship. We detect 68 confirmed or probable companions in 66 systems, of which 41 were previously undiscovered. Detections are made down to the resolution limit of ∼100 mas of the instrument. The raw multiplicity in the AstraLux sensitivity range is 17.9%, leading to a total multiplicity fraction of 21%-27% depending on the mass ratio distribution, which is consistent with being flat down to mass ratios of ∼0.4, but cannot be stringently constrained below this value. The semi-major axis distribution is well represented by a log-normal function with μa = 0.78 and σa = 0.47, which is narrower and peaked at smaller separations than for a Sun-like sample. This is consistent with a steady decrease in average semi-major axis from the highest-mass binary stars to the brown dwarf binaries. [ABSTRACT FROM AUTHOR]

Published

2014

21. THE ASTRALUX LARGE M-DWARF MULTIPLICITY SURVEY.

Author

Janson, Markus, Hormuth, Felix, Bergfors, Carolina, Brandner, Wolfgang, Hippler, Stefan, Daemgen, Sebastian, Kudryavtseva, Natalia, Schmalzl, Eva, Schnupp, Carolin, and Henning, Thomas

Subjects

*DWARF stars, *M stars, *BINARY stars, *IMAGING systems in astronomy, *STELLAR mass

Abstract

We present the results of an extensive high-resolution imaging survey of M-dwarf multiplicity using the Lucky Imaging technique. The survey made use of the AstraLux Norte camera at the Calar Alto 2.2 m telescope and the AstraLux Sur camera at the ESO New Technology Telescope in order to cover nearly the full sky. In total, 761 stars were observed (701 M-type and 60 late K-type), among which 182 new and 37 previously known companions were detected in 205 systems. Most of the targets have been observed during two or more epochs, and could be confirmed as physical companions through common proper motion, often with orbital motion being confirmed in addition. After accounting for various bias effects, we find a total M-dwarf multiplicity fraction of 27% ± 3% within the AstraLux detection range of 0.″08-6″ (semimajor axes of ∼3-227 AU at a median distance of 30 pc). We examine various statistical multiplicity properties within the sample, such as the trend of multiplicity fraction with stellar mass and the semimajor axis distribution. The results indicate that M-dwarfs are largely consistent with constituting an intermediate step in a continuous distribution from higher-mass stars down to brown dwarfs. Along with other observational results in the literature, this provides further indications that stars and brown dwarfs may share a common formation mechanism, rather than being distinct populations. [ABSTRACT FROM AUTHOR]

Published

2012

22. new method for finding nearby white dwarfs exoplanets and detecting biosignatures.

Author

Limbach, Mary Anne, Vanderburg, Andrew, Stevenson, Kevin B, Blouin, Simon, Morley, Caroline, Lustig-Yaeger, Jacob, Soares-Furtado, Melinda, and Janson, Markus

Subjects

*WHITE dwarf stars, *EXTRASOLAR planets, *SPECTRAL energy distribution, *PLANETARY atmospheres, *ATMOSPHERIC composition, *SPACE telescopes

Abstract

We demonstrate that the James Webb Space Telescope (JWST) can detect infrared (IR) excess from the blended light spectral energy distribution of spatially unresolved terrestrial exoplanets orbiting nearby white dwarfs. We find that JWST is capable of detecting warm (habitable-zone; T eq = 287 K) Earths or super-Earths and hot (400–1000 K) Mercury analogues in the blended light spectrum around the nearest 15 isolated white dwarfs with 10 h of integration per target using MIRI's medium-resolution spectrograph (MRS). Further, these observations constrain the presence of a CO2-dominated atmosphere on these planets. The technique is nearly insensitive to system inclination, and thus observation of even a small sample of white dwarfs could place strong limits on the occurrence rates of warm terrestrial exoplanets around white dwarfs in the solar neighbourhood. We find that JWST can also detect exceptionally cold (100–150 K) Jupiter-sized exoplanets via MIRI broad-band imaging at |$\lambda = 21\, \mathrm{\mu m}$| for the 34 nearest (<13 pc) solitary white dwarfs with 2 h of integration time per target. Using IR excess to detect thermal variations with orbital phase or spectral absorption features within the atmosphere, both of which are possible with long-baseline MRS observations, would confirm candidates as actual exoplanets. Assuming an Earth-like atmospheric composition, we find that the detection of the biosignature pair O3+CH4 is possible for all habitable-zone Earths (within 6.5 pc; six white dwarf systems) or super-Earths (within 10 pc; 17 systems) orbiting white dwarfs with only 5–36 h of integration using MIRI's low-resolution spectrometer. [ABSTRACT FROM AUTHOR]

Published

2022

23. Atmospheric characterization of terrestrial exoplanets in the mid-infrared: biosignatures, habitability, and diversity.

Author

Quanz, Sascha P., Absil, Olivier, Benz, Willy, Bonfils, Xavier, Berger, Jean-Philippe, Defrère, Denis, van Dishoeck, Ewine, Ehrenreich, David, Fortney, Jonathan, Glauser, Adrian, Grenfell, John Lee, Janson, Markus, Kraus, Stefan, Krause, Oliver, Labadie, Lucas, Lacour, Sylvestre, Line, Michael, Linz, Hendrik, Loicq, Jérôme, and Miguel, Yamila

Subjects

*INNER planets, *ASTROPHYSICS, *BIOSIGNATURES (Origin of life), *PLANETARY atmospheres, *EXTRASOLAR planets, *MOLECULAR spectra

Abstract

Exoplanet science is one of the most thriving fields of modern astrophysics. A major goal is the atmospheric characterization of dozens of small, terrestrial exoplanets in order to search for signatures in their atmospheres that indicate biological activity, assess their ability to provide conditions for life as we know it, and investigate their expected atmospheric diversity. None of the currently adopted projects or missions, from ground or in space, can address these goals. In this White Paper, submitted to ESA in response to the Voyage 2050 Call, we argue that a large space-based mission designed to detect and investigate thermal emission spectra of terrestrial exoplanets in the mid-infrared wavelength range provides unique scientific potential to address these goals and surpasses the capabilities of other approaches. While NASA might be focusing on large missions that aim to detect terrestrial planets in reflected light, ESA has the opportunity to take leadership and spearhead the development of a large mid-infrared exoplanet mission within the scope of the "Voyage 2050" long-term plan establishing Europe at the forefront of exoplanet science for decades to come. Given the ambitious science goals of such a mission, additional international partners might be interested in participating and contributing to a roadmap that, in the long run, leads to a successful implementation. A new, dedicated development program funded by ESA to help reduce development and implementation cost and further push some of the required key technologies would be a first important step in this direction. Ultimately, a large mid-infrared exoplanet imaging mission will be needed to help answer one of humankind's most fundamental questions: "How unique is our Earth?" [ABSTRACT FROM AUTHOR]

Published

2022

24. High-Resolution Imaging of Transiting Exoplanet Host Stars with AstraLux.

Author

Daemgen, Sebastian, Hormuth, Felix, Janson, Markus, Brandner, Wolfgang, Meyer, Eva, Hippler, Stefan, and Henning, Thomas

Subjects

*STARS, *ASTRONOMICAL transits, *GALAXIES, *PLANETS, *ASTROPHYSICS

Abstract

Blending of a target star with background stars or binary companions causes several problems in transit surveys. Aside from potentially yielding false positive detections (through eclipses unrelated to the target under study), the mere presence of such blends introduces a bias in the measured baseline brightness, which leads to an under-estimation of the radius of a transiting companion. Follow-up of transiting planet candidates with state-of-the-art high-resolution methods providing diffraction-limited images from the ground can strongly mitigate this problem. We present initial results from a survey with the AstraLux Lucky Imaging camera to search for close neighbours to known exoplanet hosts. So far, three companions have been detected to transit hosts, only one of which was a previously known binary (WASP-2). [ABSTRACT FROM AUTHOR]

Published

2009

25. The AstraLux large M dwarf survey.

Author

Hormuth, Felix, Brandner, Wolfgang, Janson, Markus, Hippler, Stefan, and Henning, Thomas

Subjects

*M stars, *COOL stars (Astronomy), *DWARF stars, *STARS, *GALAXIES

Abstract

AstraLux is the Lucky Imaging camera for the Calar Alto 2.2-m telescope and the 3.5-m NTT at La Silia. It allows nearly diffraction limited imaging in the SDSS i’ and z’ bands of objects as faint as i’ = 15.5 mag with minimum technical effort. One of the ongoing AstraLux observing programs is a binarity survey among late-type stars with spectral types K7 to M8, covering more than 1000 targets on the northern and southern hemisphere. The survey is designed to refine binarity statistics and especially the dependency of binarity fraction on spectral type. The choice of the SDSS i’ and z’ filters allows to obtain spectral type and mass estimates for resolved binaries. With an observing efficiency of typically 6 targets per hour we expect to complete the survey in mid-2009. Selected targets will be followed up astrometrically and photometrically, contributing to the calibration of the mass-luminosity relation at the red end of the main sequence and at visible wavelengths. [ABSTRACT FROM AUTHOR]

Published

2009

26. Graded In Vivo Exposure Treatment for Fear-Avoidant Pain Patients with Functional Disability: a Case Study.

Author

Linton, Steven J., Overmeer, Thomas, Janson, Markus, Vlaeyen, Johan W. S., and de Jong, Jeroen R.

Subjects

*FEAR, *AVOIDANT personality disorder, *BACKACHE

Abstract

This single-subject study attempts to replicate the effects of in vivo exposure for pain patients with functional difficulties. Fear-avoidance is a clear risk factor related to dysfunction associated with back pain. Nevertheless, until recently treatment had not dealt specifically with the avoidance behaviour. The treatment of other phobias suggests that in vivo exposure might be an efficient means of treatment. As patients do not normally conceptualize their problem as a phobia, there have been numerous problems in developing exposure techniques. Recently, however, an in vivo exposure technique for pain-related functional problems has been described. The study described here replicates the method: 2 male chronic back pain patients with functional problems and high scores on the Tampa Scale for Kinesiophobia volunteered to participate. Hierarchies were established with the help of a "fear thermometer" and the patients were subsequently provided with 8 sessions of in vivo exposure. The results replicated the original study and showed substantial improvements for both patients as they increased their function and decreased their fear. Thus, the findings are extended to another setting: patients and therapists. It is concluded that these results warrant further investigation in larger, controlled trials. Key words: back pain, activity training exposure, fear-avoidance. [ABSTRACT FROM AUTHOR]

Published

2002

27. Detection of the nearest Jupiter analogue in radial velocity and astrometry data.

Author

Feng, Fabo, Anglada-Escudé, Guillem, Tuomi, Mikko, Jones, Hugh R A, Chanamé, Julio, Butler, Paul R, and Janson, Markus

Subjects

*ASTROMETRY, *GAS giants, *SOLAR system, *BROWN dwarf stars, *VELOCITY, *DWARF planets

Abstract

The presence of Jupiter is crucial to the architecture of the Solar system and models underline this to be a generic feature of planetary systems. We find the detection of the difference between the position and motion recorded by the contemporary astrometric satellite Gaia and its precursor Hipparcos can be used to discover Jupiter-like planets. We illustrate how observations of the nearby star ϵ Indi A giving astrometric and radial velocity data can be used to independently find the orbit of its suspected companion. The radial velocity and astrometric data provide complementary detections which allow for a much stronger solution than either technique would provide individually. We quantify ϵ Indi A b as the closest Jupiter-like exoplanet with a mass of 3 M Jup on a slightly eccentric orbit with an orbital period of 45 yr. While other long-period exoplanets have been discovered, ϵ Indi A b provides a well-constrained mass and along with the well-studied brown dwarf binary in orbit around ϵ Indi A means that the system provides a benchmark case for our understanding of the formation of gas giant planets and brown dwarfs. [ABSTRACT FROM AUTHOR]

Published

2019

28. A search for variability in exoplanet analogues and low-gravity brown dwarfs.

Author

Vos, Johanna M, Biller, Beth A, Bonavita, Mariangela, Eriksson, Simon, Liu, Michael C, Best, William M J, Metchev, Stanimir, Radigan, Jacqueline, Allers, Katelyn N, Janson, Markus, Buenzli, Esther, Dupuy, Trent J, Bonnefoy, Mickaël, Manjavacas, Elena, Brandner, Wolfgang, Crossfield, Ian, Deacon, Niall, Henning, Thomas, Homeier, Derek, and Kopytova, Taisiya

Subjects

*EXTRASOLAR planets, *BROWN dwarf stars, *DWARF stars, *PLANETARY systems, *VARIABLE stars

Abstract

We report the results of a J -band survey for photometric variability in a sample of young, low-gravity objects using the New Technology Telescope (NTT) and the United Kingdom Infrared Telescope (UKIRT). Surface gravity is a key parameter in the atmospheric properties of brown dwarfs and this is the first large survey that aims to test the gravity dependence of variability properties. We do a full analysis of the spectral signatures of youth and assess the group membership probability of each target using membership tools from the literature. This results in a 30 object sample of young low-gravity brown dwarfs. Since we are lacking in objects with spectral types later than L9, we focus our statistical analysis on the L0–L8.5 objects. We find that the variability occurrence rate of L0–L8.5 low-gravity brown dwarfs in this survey is |$30^{+16}_{-8}{{\ \rm per\ cent}}$|⁠. We reanalyse the results of Radigan (2014) and find that the field dwarfs with spectral types L0–L8.5 have a variability occurrence rate of |$11^{+13}_{-4}{{\ \rm per\ cent}}$|⁠. We determine a probability of |$98{{\ \rm per\ cent}}$| that the samples are drawn from different distributions. This is the first quantitative indication that the low-gravity objects are more likely to be variable than the field dwarf population. Furthermore, we present follow-up JS and KS observations of the young, planetary-mass variable object PSO 318.5–22 over three consecutive nights. We find no evidence of phase shifts between the JS and KS bands and find higher JS amplitudes. We use the JS light curves to measure a rotational period of 8.45 ± 0.05 h for PSO 318.5–22. [ABSTRACT FROM AUTHOR]

Published

2019

29. Extreme asymmetry in the polarized disk of V1247 Orionis.

Author

Yurina OHTA, Misato FUKAGAWA, SITKO, Michael L., Takayuki MUTO, KRAUS, Stefan, GRADY, Carol A., WISNIEWSKI, John P., SWEARINGEN, Jeremy R., Hiroshi SHIBAI, Takahiro SUMI, Jun HASHIMOTO, Tomoyuki KUDO, Nobuhiko KUSAKABE, Munetake MOMOSE, Yoshiko OKAMOTO, Takayuki KOTANI, Michihiro TAKAMI, Thayne CURRIE, THALMANN, Christian, and JANSON, Markus

Subjects

*ORION (Constellation), *POLARIMETRY, *NEAR infrared radiation, *DISK galaxies, *ORIGIN of planets

Abstract

We present the first near-infrared scattered-light detection of the transitional disk around V1247 Ori, which was obtained using high-resolution polarimetric differential imaging observations with Subaru/HiCIAO. Our imaging in the H band reveals the disk morphology at separations of ~0. 14-0. 86 (54-330 au) from the central star. The polarized intensity image shows a remarkable arc-like structure toward the southeast of the star, whereas the fainter northwest region does not exhibit any notable features. The shape of the arm is consistent with an arc of 0. 28 ± 0. 09 in radius (108 au from the star), although the possibility of a spiral arm with a small pitch angle cannot be excluded. V1247 Ori features an exceptionally large azimuthal contrast in scattered, polarized light; the radial peak of the southeastern arc is about three times brighter than the northwestern disk measured at the same distance from the star. Combined with the previous indication of an inhomogeneous density distribution in the gap at ≲46 au, the notable asymmetry in the outer disk suggests the presence of unseen companions and/or planet-forming processes ongoing in the arc. [ABSTRACT FROM AUTHOR]

Published

2016

30. SEARCHING FOR YOUNG JUPITER ANALOGS AROUND AP COL: L-BAND HIGH-CONTRAST IMAGING OF THE CLOSEST PRE-MAIN-SEQUENCE STAR.

Author

Quanz, Sascha P., Crepp, Justin R., Janson, Markus, Avenhaus, Henning, Meyer, Michael R., and Hillenbrand, Lynne A.

Subjects

*EXTRASOLAR planets, *DOPPLER velocimetry, *DWARF galaxies, *GALAXIES, *ORBITS (Astronomy)

Abstract

The nearby M-dwarf AP Col was recently identified by Riedel et al. as a pre-main-sequence star (age 12-50 Myr) situated only 8.4 pc from the Sun. The combination of its youth, distance, and intrinsically low luminosity make it an ideal target to search for extrasolar planets using direct imaging. We report deep adaptive optics observations of AP Col taken with VLT/NACO and Keck/NIRC2 in the L band. Using aggressive speckle suppression and background subtraction techniques, we are able to rule out companions with mass m ⩾ 0.5-1 MJup for projected separations a > 4.5 AU, and m ⩾ 2 MJup for projected separations as small as 3 AU, assuming an age of 40 Myr using the COND theoretical evolutionary models. Using a different set of models, the mass limits increase by a factor of ≳2. The observations presented here are the deepest mass-sensitivity limits yet achieved within 20 AU on a star with direct imaging. While Doppler radial velocity surveys have shown that Jovian bodies with close-in orbits are rare around M-dwarfs, gravitational microlensing studies predict that 17+6– 9% of these stars host massive planets with orbital separations of 1-10 AU. Sensitive high-contrast imaging observations, like those presented here, will help to validate results from complementary detection techniques by determining the frequency of gas giant planets on wide orbits around M-dwarfs. [ABSTRACT FROM AUTHOR]

Published

2012

31. Fast-moving features in the debris disk around AU Microscopii.

Author

Boccaletti, Anthony, Thalmann, Christian, Lagrange, Anne-Marie, Janson, Markus, Augereau, Jean-Charles, Schneider, Glenn, Milli, Julien, Grady, Carol, Debes, John, Langlois, Maud, Mouillet, David, Henning, Thomas, Dominik, Carsten, Maire, Anne-Lise, Beuzit, Jean-Luc, Carson, Joseph, Dohlen, Kjetil, Engler, Natalia, Feldt, Markus, and Fusco, Thierry

Subjects

*PROTOPLANETARY disks, *INFRARED radiation, *INTERPLANETARY dust, *ORIGIN of planets, *COOL stars (Astronomy), *PLANETESIMALS, *INFRARED telescopes, *ADAPTIVE optics

Abstract

In the 1980s, excess infrared emission was discovered around main-sequence stars; subsequent direct-imaging observations revealed orbiting disks of cold dust to be the source. These 'debris disks' were thought to be by-products of planet formation because they often exhibited morphological and brightness asymmetries that may result from gravitational perturbation by planets. This was proved to be true for the β Pictoris system, in which the known planet generates an observable warp in the disk. The nearby, young, unusually active late-type star AU Microscopii hosts a well-studied edge-on debris disk; earlier observations in the visible and near-infrared found asymmetric localized structures in the form of intensity variations along the midplane of the disk beyond a distance of 20 astronomical units. Here we report high-contrast imaging that reveals a series of five large-scale features in the southeast side of the disk, at projected separations of 10-60 astronomical units, persisting over intervals of 1-4 years. All these features appear to move away from the star at projected speeds of 4-10 kilometres per second, suggesting highly eccentric or unbound trajectories if they are associated with physical entities. The origin, localization, morphology and rapid evolution of these features are difficult to reconcile with current theories. [ABSTRACT FROM AUTHOR]

Published

2015

32. SPOTS: Search for Planets Of Two Stars—A Direct Imaging Survey for Exoplanets in Binary Systems.

Author

Thalmann, Christian, Goto, Miwa, Carson, Joseph, Feldt, Markus, Henning, Thomas, Itoh, Yoichi, Janson, Markus, Kandori, Ryo, Knapp, Gillian R., Mayama, Satoshi, McElwain, Michael, Moro-Martín, Amaya, Suzuki, Ryuji, Tamura, Motohide, Turner, Edwin L., Usuda, Tomonori, and Wisniewski, John

Subjects

*PLANETS, *IMAGING systems, *BINARY metallic systems, *PHYSICAL metallurgy, *ADAPTIVE optics

Abstract

The Subaru High-contrast Coronagraphic Imager for Adaptive Optics (HiCIAO) instrument is participating in the planet hunt with its direct imaging survey, the Subaru Strategic Exploration of Exoplanets and Disks (SEEDS), from which binary stars are excluded. However, these systems are expected to harbor a population of planets comparable in number to that of single stars, but differing in many aspects, such as the distribution of planet mass, orbital separation, and eccentricity. Measuring these deviations would unlock a wealth of information on the processes by which planets form and evolve, providing much-needed constraints to theory. The logical next step is therefore to complement SEEDS with a sister project focusing on binary stars: SPOTS, a “Search for Planets Of Two Stars.” We propose a direct imaging survey for circumbinary planets of very tight binaries and circumstellar planets of wide binaries. [ABSTRACT FROM AUTHOR]

Published

2009

33. SUB-STELLAR COMPANIONS AND STELLAR MULTIPLICITY IN THE TAURUS STAR-FORMING REGION.

Author

Daemgen, Sebastian, Bonavita, Mariangela, Jayawardhana, Ray, Lafrenière, David, and Janson, Markus

Subjects

*BINARY stars, *STARS, *STELLAR activity, *STELLAR collisions, *STELLAR dynamics

Abstract

We present results from a large, high-spatial-resolution near-infrared imaging search for stellar and sub-stellar companions in the Taurus-Auriga star-forming region. The sample covers 64 stars with masses between those of the most massive Taurus members at ∼3 M☼ and low-mass stars at ∼0.2 M☼. We detected 74 companion candidates, 34 of these reported for the first time. Twenty-five companions are likely physically bound, partly confirmed by follow-up observations. Four candidate companions are likely unrelated field stars. Assuming physical association with their host star, estimated companion masses are as low as ∼2 MJup. The inferred multiplicity frequency within our sensitivity limits between ∼10-1500 AU is . Applying a completeness correction, 62% ± 14% of all Taurus stars between 0.7 and 1.4 M☼ appear to be multiple. Higher order multiples were found in of the cases, in agreement with previous observations of the field. We estimate a sub-stellar companion frequency of ∼3.5%-8.8% within our sensitivity limits from the discovery of two likely bound and three other tentative very low-mass companions. This frequency appears to be in agreement with what is expected from the tail of the stellar companion mass ratio distribution, suggesting that stellar and brown dwarf companions share the same dominant formation mechanism. Further, we find evidence for possible evolution of binary parameters between two identified sub-populations in Taurus with ages of ∼2 Myr and ∼20 Myr, respectively. [ABSTRACT FROM AUTHOR]

Published

2015

34. SURFACE GEOMETRY OF PROTOPLANETARY DISKS INFERRED FROM NEAR-INFRARED IMAGING POLARIMETRY.

Author

Takami, Michihiro, Hasegawa, Yasuhiro, Muto, Takayuki, Gu, Pin-Gao, Dong, Ruobing, Karr, Jennifer L., Hashimoto, Jun, Kusakabe, Nobuyuki, Chapillon, Edwige, Tang, Ya-Wen, Itoh, Youchi, Carson, Joseph, Follette, Katherine B., Mayama, Satoshi, Sitko, Michael, Janson, Markus, Grady, Carol A., Kudo, Tomoyuki, Akiyama, Eiji, and Kwon, Jungmi

Subjects

*SURFACE geometry, *PROTOPLANETARY disks, *POLARIMETRY, *DIFFERENTIAL equations, *APPROXIMATION theory

Abstract

We present a new method of analysis for determining the surface geometry of five protoplanetary disks observed with near-infrared imaging polarimetry using Subaru-HiCIAO. Using as inputs the observed distribution of polarized intensity (PI), disk inclination, assumed properties for dust scattering, and other reasonable approximations, we calculate a differential equation to derive the surface geometry. This equation is numerically integrated along the distance from the star at a given position angle. We show that, using these approximations, the local maxima in the PI distribution of spiral arms (SAO 206462, MWC 758) and rings (2MASS J16042165-2130284, PDS 70) are associated with local concave-up structures on the disk surface. We also show that the observed presence of an inner gap in scattered light still allows the possibility of a disk surface that is parallel to the light path from the star, or a disk that is shadowed by structures in the inner radii. Our analysis for rings does not show the presence of a vertical inner wall as often assumed in studies of disks with an inner gap. Finally, we summarize the implications of spiral and ring structures as potential signatures of ongoing planet formation. [ABSTRACT FROM AUTHOR]

Published

2014

35. AN ADAPTIVE OPTICS MULTIPLICITY CENSUS OF YOUNG STARS IN UPPER SCORPIUS.

Author

Lafrenière, David, Jayawardhana, Ray, van Kerkwijk, Marten H., Brandeker, Alexis, and Janson, Markus

Subjects

*BINARY stars, *MULTIPLE stars, *CIRCUMBINARY planets, *ADAPTIVE optics, *OPTICS -- Methodology

Abstract

We present the results of a multiplicity survey of 91 stars spanning masses of ∼0.2-10 M☼ in the Upper Scorpius star-forming region, based on adaptive optics imaging with the Gemini North telescope. Our observations identified 29 binaries, 5 triples, and no higher order multiples. The corresponding raw multiplicity frequency is 0.37 ± 0.05. In the regime where our observations are complete—companion separations of 0.″1-5″ (∼15-800 AU) with magnitude limits ranging from K < 9.3 at 0.″1 to K < 15.8 at 5″—the multiplicity frequency is 0.27. For similar separations, the multiplicity frequency in Upper Scorpius is comparable to that in other dispersed star-forming regions, but is a factor of two to three higher than in denser star-forming regions or in the field. Our sample displays a constant multiplicity frequency as a function of stellar mass. Among our sample of binaries, we find that both wider (>100 AU) and higher-mass systems tend to have companions with lower companion-to-primary mass ratios. Three of the companions identified in our survey are unambiguously substellar and have estimated masses below 0.04 M☼ (two of them are new discoveries from this survey—1RXS J160929.1–210524b and HIP 78530B—although we have reported them separately in earlier papers). These three companions have projected orbital separations of 300-900 AU. Based on a statistical analysis factoring in sensitivity limits, we calculate an occurrence rate of 5-40 MJup companions of ∼4.0% for orbital separations of 250-1000 AU, compared to <1.8% at smaller separations, suggesting that such companions are more frequent on wider orbits. [ABSTRACT FROM AUTHOR]

Published

2014