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21	La binarité des étoiles Ae/Be de Herbig vue par l'optique adaptative et la spectroscopie : une étude du système triple TY CrA Corporon, Patrice 19 March 1998 (has links) (PDF) Les étoiles multiples sont nombreuses, tant parmi les objets jeunes de faible masse, les étoiles T Tauri, que parmi les astres de la Séquence Principale (SP). En ce qui concerne les étoiles jeunes de masse intermédiaire, les étoiles Ae/Be de Herbig (HAeBe), le statut de la binarité est peu connu. Nous avons réalisé une recherche systématique de binaires HAeBe en utilisant deux techniques: l'imagerie à haute résolution angulaire avec la méthode de l'Optique Adaptative d'une part, et la spectroscopie visible à haute résolution d'autre part. Ces techniques complémentaires nous ont permis d'identifier plus d'une vingtaine de nouvelles étoiles binaires; la fréquence de binarité déduite est d'au moins 50 %, voir supérieure à cause des biais observationnels discutés dans la thèse. Pour la première fois, les types spectraux des compagnons ont pu être déterminés dans une vingtaine de systèmes visuels. Les implications de nos observations pour la présence de disques de poussières et la détection d'émission X dans les étoiles HAeBe sont présentées. Les contraintes apportées pour les théories de formation des binaires sont discutées. Une partie importante de la thèse est consacrée à une étude approfondie de l'étoile triple TY CrA, l'unique système spectroscopique hiérarchisé parmi les étoiles Ae/Be de Herbig. Après une description complète des paramètres orbitaux et stellaires, la modélisation de la dynamique de cet objet particulier a été réalisée. Nos calculs théoriques montrent que la cohésion du système est assurée par effet de marée à l'oeuvre dans la binaire à éclipse centrale. L'environnement circumstellaire de TY CrA a également été étudié à partir d'observations spectroscopiques infrarouges avec le télescope spatial ISO et à partir d'images en Optique Adaptative dans le proche infrarouge. TY CrA Ae/Be de Herbig binaires spectroscopiques binaires
22	Formation des raies dans les vents des étoiles Ae/Be de Herbig Bouret, Jean Claude 13 November 1998 (has links) (PDF) Les étoiles Ae/Be de Herbig sont des étoiles pré-séquence principale de masse intermédiaire (2-5 M) présentant les signes d'une activité intense et de vents stellaires importants. L'origine de ces phénomènes reste mystérieuse car les mécanismes efficaces dans d'autres parties du diagramme HR sont, ici, inopérants. Nous avons étudié la formation des raies dans les vents de ces étoiles à l'aide d'un modèle semi-empirique à symétrie sphérique, les contraintes sur les paramètres libres du modèle étant alors déduites en comparant les spectres théoriques aux observations. Avec cette méthode, nous avons modélisé les raies de résonance de C IV et Mg II ainsi que les raies de Balmer et les continus de l'hydrogène, pour un échantillon représentatif d'étoiles. Nous avons pu confirmer que ces vents ont la même structure générale, et notamment une chromosphère à température modérée (T ~ 20 000 K). Nous obtenons des taux de perte de masse en très bon accord avec ceux déduits des observations radio. La quantité d'énergie dissipée dans le vent a été estimée par le calcul des pertes radiatives. Les valeurs obtenues sont supérieures à celles proposées par les modèles faisant intervenir des disques d'accrétion ou la rotation interne de l'étoile comme source d'énergie pour expliquer l'activité. La modélisation de la raie 1240 A de N V dans le vent d'AB Aur (prototype des étoiles Ae/Be de Herbig), observée avec le télescope spatial Hubble, nous a conduits à développer une méthode pour simuler la présence de globules chauds (T ~ 10 5 K) créés par des chocs, selon un modèle inspiré du vent solaire. Ce modèle nous permet également d'expliquer l'émission X observée par le satellite ROSAT. Les pertes radiatives occasionnées par ces globules sont supérieures à l'énergie cinétique du vent, ce qui montre que d'autres processus dissipatifs sont à l'oeuvre dans le vent de cette étoile. Ce travail constitue la première étape vers la prise en compte des écarts à la symétrie sphérique, révélés par la modulation rotationnelle de certaines raies du vent d'AB Aur. L'étude de la raie He l D3 a permis de poser les premières contraintes sur la physique à la base du vent d'AB Aur. Pour former une composante en émission décalée vers le bleu conforme aux observations, il est nécessaire de considérer des gradients de vitesse et des taux de perte de masse très élevés. Ce résultat montre que le vent d'AB Aur est fortement hétérogène, y compris dans les régions où il prend naissance. Il apparaît aussi que la composante en émission décalée vers le rouge de cette raie ne peut pas se former dans le vent mais qu'elle est vraisemblablement le résultat d'une accrétion de matière sur les pôles de l'étoile. Ces résultats représentent un ensemble de contraintes fortes, sur lequel il est désormais possible de s'appuyer pour mener à bien une étude théorique des vents des étoiles Ae/Be de Herbig. transfert radiatif vents stellaires activité stellaire chromosphères étoiles Ae/Be de Herbig évolution pré-séquence principale
23	The Sizes and Depletions of the Dust and Gas Cavities in the Transitional Disk J160421.7-213028 Dong, Ruobing, Marel, Nienke van der, Hashimoto, Jun, Chiang, Eugene, Akiyama, Eiji, Liu, Hauyu Baobab, Muto, Takayuki, Knapp, Gillian R., Tsukagoshi, Takashi, Brown, Joanna, Bruderer, Simon, Koyamatsu, Shin, Kudo, Tomoyuki, Ohashi, Nagayoshi, Rich, Evan, Satoshi, Mayama, Takami, Michihiro, Wisniewski, John, Yang, Yi, Zhu, Zhaohuan, Tamura, Motohide 21 February 2017 (has links) We report ALMA Cycle 2 observations of 230 GHz (1.3 mm) dust continuum emission, and (CO)-C-12, (CO)-C-13, and (CO)-O-18 J = 2-1 line emission, from the Upper Scorpius transitional disk [PZ99] J160421.7-213028, with an angular resolution of similar to 0''.25 (35 au). Armed with these data and existing H-band scattered light observations, we measure the size and depth of the disk's central cavity, and the sharpness of its outer edge, in three components: sub-mu m-sized "small" dust traced by scattered light, millimeter-sized "big" dust traced by the millimeter continuum, and gas traced by line emission. Both dust populations feature a cavity of radius similar to 70 au that is depleted by factors of at least 1000 relative to the dust density just outside. The millimeter continuum data are well explained by a cavity with a sharp edge. Scattered light observations can be fitted with a cavity in small dust that has either a sharp edge at 60 au, or an edge that transitions smoothly over an annular width of 10 au near 60 au. In gas, the data are consistent with a cavity that is smaller, about 15 au in radius, and whose surface density at 15 au is 10(3 +/- 1) times smaller than the surface density at 70 au; the gas density grades smoothly between these two radii. The CO isotopologue observations rule out a sharp drop in gas surface density at 30 au or a double-drop model, as found by previous modeling. Future observations are needed to assess the nature of these gas and dust cavities (e.g., whether they are opened by multiple as-yet-unseen planets or photoevaporation). circumstellar matter planets and satellites: formation protoplanetary disks stars: pre-main sequence stars: variables: T Tauri, Herbig Ae/Be
24	What is the Mass of a Gap-opening Planet? Dong, Ruobing, Fung, Jeffrey 24 January 2017 (has links) High-contrast imaging instruments such as GPI and SPHERE are discovering gap structures in protoplanetary disks at an ever faster pace. Some of these gaps may be opened by planets forming in the disks. In order to constrain planet formation models using disk observations, it is crucial to find a robust way to quantitatively back out the properties of the gap-opening planets, in particular their masses, from the observed gap properties, such as their depths and widths. Combining 2D and 3D hydrodynamics simulations with 3D radiative transfer simulations, we investigate the morphology of planet-opened gaps in near-infrared scattered-light images. Quantitatively, we obtain correlations that directly link intrinsic gap depths and widths in the gas surface density to observed depths and widths in images of disks at modest inclinations under finite angular resolution. Subsequently, the properties of the surface density gaps enable us to derive the disk scale height at the location of the gap h, and to constrain the quantity M-p(2)/alpha, where Mp is the mass of the gap-opening planet and a characterizes the viscosity in the gap. As examples, we examine the gaps recently imaged by VLT/SPHERE, Gemini/GPI, and Subaru/HiCIAO in HD 97048, TW Hya, HD 169142, LkCa. 15, and RX J1615.3-3255. Scale heights of the disks and possible masses of the gap-opening planets are derived assuming each gap is opened by a single planet. Assuming a = 10(-3), the derived planet masses in all cases are roughly between 0.1 and 1M(J). circumstellar matter planet-disk interactions planets and satellites: formation protoplanetary disks stars: pre-main sequence stars: variables: T Tauri, Herbig Ae/Be
25	X-shooter study of accretion in Chamaeleon I Manara, C. F., Testi, L., Herczeg, G. J., Pascucci, I., Alcalá, J. M., Natta, A., Antoniucci, S., Fedele, D., Mulders, G. D., Henning, T., Mohanty, S., Prusti, T., Rigliaco, E. 25 August 2017 (has links) The dependence of the mass accretion rate on the stellar properties is a key constraint for star formation and disk evolution studies. Here we present a study of a sample of stars in the Chamaeleon I star-forming region carried out using spectra taken with the ESO VLT/X-shooter spectrograph. The sample is nearly complete down to stellar masses (M-star) similar to 0.1 M-circle dot for the young stars still harboring a disk in this region. We derive the stellar and accretion parameters using a self-consistent method to fit the broadband flux-calibrated medium resolution spectrum. The correlation between accretion luminosity to stellar luminosity, and of mass accretion rate to stellar mass in the logarithmic plane yields slopes of 1.9 +/- 0.1 and 2.3 +/- 0.3, respectively. These slopes and the accretion rates are consistent with previous results in various star-forming regions and with different theoretical frameworks. However, we find that a broken power-law fit, with a steeper slope for stellar luminosity lower than similar to 0.45 L-circle dot and for stellar masses lower than similar to 0.3 M-circle dot is slightly preferred according to different statistical tests, but the single power-law model is not excluded. The steeper relation for lower mass stars can be interpreted as a faster evolution in the past for accretion in disks around these objects, or as different accretion regimes in different stellar mass ranges. Finally, we find two regions on the mass accretion versus stellar mass plane that are empty of objects: one region at high mass accretion rates and low stellar masses, which is related to the steeper dependence of the two parameters we derived. The second region is located just above the observational limits imposed by chromospheric emission, at M-star similar to 0.3-0.4 M-circle dot. These are typical masses where photoevaporation is known to be effective. The mass accretion rates of this region are similar to 10(-10) M-circle dot/yr, which is compatible with the value expected for photoevaporation to rapidly dissipate the inner disk. stars: pre-main sequence stars: variables: T Tauri, Herbig Ae/Be accretion, accretion disks protoplanetary disks
26	CHARACTERIZATION OF THE INNER DISK AROUND HD 141569 A FROM KECK/NIRC2 L-BAND VORTEX CORONAGRAPHY Mawet, Dimitri, Choquet, Élodie, Absil, Olivier, Huby, Elsa, Bottom, Michael, Serabyn, Eugene, Femenia, Bruno, Lebreton, Jérémy, Matthews, Keith, Gonzalez, Carlos A. Gomez, Wertz, Olivier, Carlomagno, Brunella, Christiaens, Valentin, Defrère, Denis, Delacroix, Christian, Forsberg, Pontus, Habraken, Serge, Jolivet, Aissa, Karlsson, Mikael, Milli, Julien, Pinte, Christophe, Piron, Pierre, Reggiani, Maddalena, Surdej, Jean, Catalan, Ernesto Vargas 03 January 2017 (has links) HD 141569 A is a pre-main sequence B9.5 Ve star surrounded by a prominent and complex circumstellar disk, likely still in a transition stage from protoplanetary to debris disk phase. Here, we present a new image of the third inner disk component of HD 141569 A made in the L' band (3.8 mu m) during the commissioning of the vector vortex coronagraph that has recently been installed in the near-infrared imager and spectrograph NIRC2 behind the W.M. Keck Observatory Keck II adaptive optics system. We used reference point-spread function subtraction, which reveals the innermost disk component from the inner working distance of similar or equal to 23 au and up to similar or equal to 70 au. The spatial scale of our detection roughly corresponds to the optical and near-infrared scattered light, thermal Q, N, and 8.6 mu m PAH emission reported earlier. We also see an outward progression in dust location from the L' band to the H band (Very Large Telescope/SPHERE image) to the visible (Hubble Space Telescope (HST)/STIS image), which is likely indicative of dust blowout. The warm disk component is nested deep inside the two outer belts imaged by HST-NICMOS in 1999 (at 406 and 245 au, respectively). We fit our new L'-band image and spectral energy distribution of HD 141569 A with the radiative transfer code MCFOST. Our best-fit models favor pure olivine grains and are consistent with the composition of the outer belts. While our image shows a putative very faint point-like clump or source embedded in the inner disk, we did not detect any true companion within the gap between the inner disk and the first outer ring, at a sensitivity of a few Jupiter masses. planet-disk interactions planetary systems planets and satellites: formation protoplanetary disks stars: pre-main sequence stars: variables: T Tauri, Herbig Ae/Be
27	The 2014–2017 outburst of the young star ASASSN-13db Sicilia-Aguilar, A., Oprandi, A., Froebrich, D., Fang, M., Prieto, J. L., Stanek, K., Scholz, A., Kochanek, C. S., Henning, Th., Gredel, R., Holoien, T. W.- S., Rabus, M., Shappee, B. J., Billington, S. J., Campbell-White, J., Zegmott, T. J. 24 November 2017 (has links) Context. Accretion outbursts are key elements in star formation. ASASSN-13db is a M5-type star with a protoplanetary disk, the lowest-mass star known to experience accretion outbursts. Since its discovery in 2013, it has experienced two outbursts, the second of which started in November 2014 and lasted until February 2017. Aims. We explore the photometric and spectroscopic behavior of ASASSN-13db during the 2014-2017 outburst. Methods. We use high- and low-resolution spectroscopy and time-resolved photometry from the ASAS-SN survey, the LCOGT and the Beacon Observatory to study the light curve of ASASSN-13db and the dynamical and physical properties of the accretion flow. Results. The 2014-2017 outburst lasted for nearly 800 days. A 4.15 d period in the light curve likely corresponds to rotational modulation of a star with hot spot(s). The spectra show multiple emission lines with variable inverse P-Cygni profiles and a highly variable blue-shifted absorption below the continuum. Line ratios from metallic emission lines (Fe I/Fe II, Ti I/Ti II) suggest temperatures of similar to 5800-6000 K in the accretion flow. Conclusions. Photometrically and spectroscopically, the 2014-2017 event displays an intermediate behavior between EXors and FUors. The accretion rate (<(M)over dot> = 1-3 x 10(-7) M-circle dot/yr), about two orders of magnitude higher than the accretion rate in quiescence, is not significantly different from the accretion rate observed in 2013. The absorption features in the spectra suggest that the system is viewed at a high angle and drives a powerful, non-axisymmetric wind, maybe related to magnetic reconnection. The properties of ASASSN-13db suggest that temperatures lower than those for solar-type stars are needed for modeling accretion in very-low-mass systems. Finally, the rotational modulation during the outburst reveals that accretion-related structures settle after the beginning of the outburst and can be relatively stable and long-lived. Our work also demonstrates the power of time-resolved photometry and spectroscopy to explore the properties of variable and outbursting stars. stars: pre-main sequence stars: variables: T Tauri Herbig Ae/Be stars: individual: ASASSN-13db stars: low-mass protoplanetary disks techniques: spectroscopic
28	Radio astronomy techniques : the use of radio instruments from single dish radio telescopes to radio interferometers De Witt, Aletha 03 1900 (has links) New radio telescopes under development, will significantly enhance the capabilities of radio astronomy in the Southern Hemisphere. South Africa, in particular, is actively involved in the development of a new array (MeerKAT) as well as in the expansion of existing very long baseline interferometer arrays in the south. Participation in these new developments demands a thorough understanding of radio astronomy techniques, and data analysis, and this thesis focusses on two projects with the aim of gaining such experience. The Southern Hemisphere very long baselines array is not well served with calibrator sources and there are significant gaps in the present calibrator distribution on the sky. An adequately dense, well distributed, set of strong, compact calibrator or reference sources is needed. With this in mind, observations using the Southern Hemisphere long baseline array were conducted to investigate a sample of candidate calibrator sources. The compactness of the sources was investigated and new potential calibrators have been identified. Single antenna radio spectroscopy of OH masers has identified sources of 1720 MHz emission associated with supernova remnants at the shock interface between the expanding supernova remnant and a molecular cloud. Models indicate that these masers are shock excited and can only be produced under tight physical constraints. Out ows from newly-formed stars create nebulous regions known as Herbig-Haro objects when they interact with the surrounding medium, and these regions are potentially similar to those seen in supernova remnants. If conditions behind the shock fronts of Herbig-Haro objects are able to support 1720-MHz OH masers they could be a useful diagnostic tool for star formation. A survey toward Herbig-Haro objects using a single-dish radio telescope did detect 1720-MHz OH lines in emission, but neither their spectral signature nor follow-up observations with the Very Large Array showed evidence of maser emission. / Mathematical Sciences / Ph.D. (Astronomy) ISM: molecules Jets and outflows Herbig-Haro Objects Supernova remnants Star formation Methods & techniques: data analysis Line profiles Masers Interferometric Surveys Wavelengths: radio emission lines Radio continuum 522 Radio astronomy -- technique Masers Radio interferometers
29	Radio astronomy techniques : the use of radio instruments from single dish radio telescopes to radio interferometers De Witt, Aletha 03 1900 (has links) New radio telescopes under development, will significantly enhance the capabilities of radio astronomy in the Southern Hemisphere. South Africa, in particular, is actively involved in the development of a new array (MeerKAT) as well as in the expansion of existing very long baseline interferometer arrays in the south. Participation in these new developments demands a thorough understanding of radio astronomy techniques, and data analysis, and this thesis focusses on two projects with the aim of gaining such experience. The Southern Hemisphere very long baselines array is not well served with calibrator sources and there are significant gaps in the present calibrator distribution on the sky. An adequately dense, well distributed, set of strong, compact calibrator or reference sources is needed. With this in mind, observations using the Southern Hemisphere long baseline array were conducted to investigate a sample of candidate calibrator sources. The compactness of the sources was investigated and new potential calibrators have been identified. Single antenna radio spectroscopy of OH masers has identified sources of 1720 MHz emission associated with supernova remnants at the shock interface between the expanding supernova remnant and a molecular cloud. Models indicate that these masers are shock excited and can only be produced under tight physical constraints. Out ows from newly-formed stars create nebulous regions known as Herbig-Haro objects when they interact with the surrounding medium, and these regions are potentially similar to those seen in supernova remnants. If conditions behind the shock fronts of Herbig-Haro objects are able to support 1720-MHz OH masers they could be a useful diagnostic tool for star formation. A survey toward Herbig-Haro objects using a single-dish radio telescope did detect 1720-MHz OH lines in emission, but neither their spectral signature nor follow-up observations with the Very Large Array showed evidence of maser emission. / Mathematical Sciences / Ph.D. (Astronomy) ISM: molecules Jets and outflows Herbig-Haro Objects Supernova remnants Star formation Methods & techniques: data analysis Line profiles Masers Interferometric Surveys Wavelengths: radio emission lines Radio continuum 522 Radio astronomy -- technique Masers Radio interferometers

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