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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
31

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.
32

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.
33

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.
34

Investigation of variable Ap Stars in TESS continuous viewing zone

Papakonstantinou, Nikolaos January 2021 (has links)
No description available.
35

Étude de la convection dans les étoiles naines blanches de type ZZ Ceti et les implications sur la mesure de leurs paramètres atmosphériques

Cloutier, Simon 08 1900 (has links)
No description available.
36

Relevé en photométrie rapide d’étoiles naines blanches de type ZZ Ceti dans l’échantillon Gaia

Vincent, Olivier 04 1900 (has links)
Ce mémoire présente un relevé en photométrie rapide visant la découverte de nouvelles étoiles naines blanches de type ZZ Ceti, dont l'atmosphère est dominée par l'hydrogène. Les naines blanches représentent le stade final de l’évolution des étoiles de masse inférieure à M~8 Msol, soit 97% de la population stellaire. En se refroidissant, ces cadavres stellaires traversent une phase d'instabilité qui se manifeste sous la forme de variations de la luminosité de l'étoile dans une région étroite du plan masse - température effective appelée bande d'instabilité. Le but principal de notre étude est d'identifier de nouvelles étoiles naines blanches de type ZZ Ceti à l'intérieur de cette bande d'instabilité. Pour ce faire, nous avons mesuré avec grande précision la température effective et la masse de toutes les naines blanches dans l'hémisphère nord à l'intérieur de 100 parsecs de distance du Soleil, en combinant les mesures de parallaxes trigonométriques du relevé astrométrique Gaia avec les mesures photométriques des relevés Pan-STARRS, SDSS et CFIS, puis en les comparant avec les prédictions de modèles d'atmosphère détaillés. Des courbes de lumière de candidates ZZ Ceti, sélectionnées à l'intérieur de la bande d'instabilité empirique, ont ensuite été obtenues avec l'instrument PESTO attaché au télescope de 1.6 m de l'Observatoire du Mont-Mégantic. Nous avons découvert 29 nouvelles ZZ Ceti, dont une très rare naine blanche variable supermassive. Nous avons également identifié, dans la bande, 5 étoiles possiblement variables et 32 objets qui ne semblent montrer aucune variation photométrique. Plusieurs de ces dernières pourraient toutefois être variables avec une amplitude sous notre seuil de détection, ou encore être hors de la bande d'instabilité à cause d'erreurs sur leurs paramètres photométriques. Nos résultats, combinés à d’autres à venir, permettront de vérifier la pureté de la bande d'instabilité, c'est-à-dire qu'elle soit dépourvue d'étoiles non variables, un résultat qui supporterait l'idée que les ZZ Ceti représentent une phase inévitable dans l'évolution des naines blanches riches en hydrogène. Si tel était le cas, il serait alors possible de sonder la structure interne de l'ensemble des naines blanches de type DA à l'aide de l'astérosismologie, procurant un outil additionnel permettant de comprendre leur évolution. / This thesis presents a high-speed photometric survey aimed at discovering new ZZ Ceti white dwarf stars, whose atmosphere is dominated by hydrogen. White dwarfs represent the final stage of stellar evolution for main-sequence stars less massive than M~8 Msol, or 97% of the stellar population. These stellar remnants go through a phase of pulsational instability that manifests itself in the form of luminosity variations, as they evolve through a narrow region of the mass-effective temperature plane, called the ZZ Ceti instability strip. The main goal of our study is to identify new ZZ Ceti white dwarfs within this instability strip. To do so, we measured with high precision the effective temperature and mass of all white dwarfs in the Northern Hemisphere within 100 parsecs of the Sun, by combining trigonometric parallax measurements from the astrometric survey Gaia, with photometric measurements from the Pan-STARRS, SDSS, and CFIS surveys, and by comparing these observations with the predictions of detailed model atmospheres. Light curves of ZZ Ceti candidates, selected within the empirical instability strip, were then obtained with the PESTO instrument attached to the 1.6 m telescope of the Mont-Mégantic Observatory. We discovered 29 new ZZ Ceti stars, including a very rare ultra-massive variable pulsator. We also identified 5 possibly variable stars within the strip, in addition to 32 objects that do not appear to show any photometric variability. However, several of those could be variable with an amplitude below our detection threshold, or could be located outside the instability strip due to errors in their photometric parameters. Our results, combined with others to come, will allow us to verify the purity of the instability strip, i.e. that it is devoid of non-variable stars, a result that would support the idea that ZZ Ceti stars represent an inevitable phase through which all hydrogen-atmosphere white dwarfs must evolve. If this were the case, it would then be possible to probe the internal structure of all DA-type white dwarfs using asteroseismology, providing an additional tool for understanding their evolution.
37

The Secret Lives of Cepheids: Evolutionary Changes and Pulsation-Induced Shock Heating in the Prototype Classical Cepheid δ Cep

Engle, Scott G., Guinan, Edward F., Harper, Graham M., Neilson, Hilding R., Evans, Nancy Remage 10 October 2014 (has links)
Over the past decade, the Secret Lives of Cepheids (SLiC) program has been carried out at Villanova University to study aspects and behaviors of classical Cepheids that are still not well understood. In this, the first of several planned papers on program Cepheids, we report the current results for δ Cep, the Cepheid prototype. Ongoing photometry has been obtained to search for changes in the pulsation period, light-curve morphology, and amplitude. Combining our photometry with the times of maximum light compilation by Berdnikov et al. returns a small period change of dP/dt -0.1006 ± 0.0002 s yr-1. There is also evidence for a gradual light amplitude increase of 0.011 mag (V band) and 0.012 mag (B band) per decade over the last 50 years. In addition, Hubble Space Telescope (HST) Cosmic Origins Spectrograph (COS) UV spectrophotometry and XMM-Newton X-ray data were carried out to investigate the high-temperature plasmas present above the Cepheid photospheres. In total, from the five visits (eight exposures) with XMM-Newton, δ Cep is found to be a soft X-ray source (L X(0.3-2 keV) 4.5-13 × 1028erg s-1) with peak flux at kT = 0.6-0.9 keV. The X-ray activity is found to vary, possibly in phase with the stellar pulsations. From 2010-2013, nine observations of δ Cep were carried out with HST-COS. The UV emissions are also variable and well phased with the stellar pulsations. Maximum UV line emissions occur near, or slightly before, maximum optical light, varying by as much as 20 times. This variability shows that pulsation-induced shock heating plays a significant role in Cepheid atmospheres, possibly in addition to a quiescent, magnetic heating. The results of this study show Cepheid atmospheres to be rather complex and dynamic.
38

Formation and evolution of globular clusters in the Galaxy and Magellanic Clouds / Formação e evolução de aglomerados globulares da Galáxia e Nuvens de Magalhães

Dias, Bruno Moreira de Souza 25 June 2014 (has links)
Globular clusters are tracers of the formation and evolution of their host galaxies. Kinematics, chemical abundances, age and position of the clusters allows tracing interactions between Milky Way and surrounding galaxies and outlines their chemical enrichment history. In this thesis we analyse mid-resolution spectra of about 800 red giant stars in 51 Galactic globular clusters. It is the first time that [Fe/H] and [Mg/Fe] derived in a consistent way are published for such a huge sample of globular clusters, almost 1/3 of the total number of catalogued clusters. Our metallicities are showed to be more precise than previous works based on mid-resolution spectroscopy. A turnover at [Fe/H] ~ -1.0 is found in the plot [Fe/H] vs. [Mg/Fe] for bulge and halo, although bulge seems to have a more metal-rich turnover, i.e, bulge has more efficient formation than the halo. Comparing the abundances with age the timescale for SNIa to start to become important is 1Gyr. [Fe/H] vs. age corroborates the different star formation efficiency of bulge and halo while [Mg/Fe] does not follow that. Halo was formed in mini halos or dwarf galaxies, and two multiple population clusters had their origin analysed to check it. M 22 seems to have been formed in the Milky Way while NGC 5824 possibly was originated in a dwarf galaxy, although our results are inconclusive for NGC 5824. The Galactic bulge seems to have been formed fast i.e., probably the oldest globular cluster is there. In fact HP 1 has a bluer horizontal branch than expected for its metallicity and we interpret that as an age effect. We determine its distance using light curves of variable stars in order to constrain future age determinations via colour-magnitude diagram. Finally, we investigate interaction between Milky Way and its neighbour galaxy SMC. We find that some star clusters are being stripped out of the SMC main body, which is consistent with tidal stripping scenario for the interaction between the galaxies, instead of ram pressure that would only affect gas. / Aglomerados globulares são traçadores da formação e evolução de suas galáxias. Cinemática, abundâncias químicas, idades e posições dos aglomerados permitem traçar interações entre Via Láctea e galáxias vizinhas e suas histórias de enriquecimento químico. Nesta tese analisamos espectros de média resolução de mais de 800 estrelas gigantes vermelhas em 51 aglomerados globulares Galácticos. É a primeira vez que [Fe/H] and [Mg/Fe] determinados de modo consistente são publicados para uma amostra desse porte, ~1/3 dos objetos catalogados. Nossas metalicidades são mais precisas que trabalhos anteriores similares. Uma quebra em [Fe/H] ~ -1.0 é encontrada no gráfico [Fe/H] vs. [Mg/Fe] para o bojo e halo, embora bojo parece ter uma quebra em [Fe/H] maior, i.e, bojo tem formaçãao mais eficiente que o halo. Comparando abundâncias com idade, a escala de tempo para SNIa ficar importante é 1Gano. [Fe/H] vs. idade corrobora diferentes eficiências de formação do bojo e halo, mas [Mg/Fe] vs. idade não mostra isso. O halo foi formado em mini halos ou galáxias anãs, e dois aglomerados com dispersão em [Fe/H] tiveram suas origens analisadas. M 22 parece ter sido formado na Via Láctea e NGC 5824 possivelmente foi originado em uma galáxia anã, embora os resultados são inconclusivos para NGC 5824. O bojo parece ter sido formado rapidamente e deve possuir o aglomerado mais velho. De fato, HP 1 tem um ramo horizontal mais azul que o esperado para sua metalicidade e vemos isso como um efeito da idade. Determinamos sua distância usando curvas de luz de RR Lyrae de maneira a restringir futuras determinações de idade via diagrama cor-magnitude. Finalmente, investigamos a interação entre Via Láctea e sua galáxia vizinha SMC. Encontramos aglomerados sendo removidos do corpo central da SMC, consistente com cenário de remoção por força de maré para a interação entre as galáxias, em vez de ``ram pressure\'\' que afeta só gás.
39

Formation and evolution of globular clusters in the Galaxy and Magellanic Clouds / Formação e evolução de aglomerados globulares da Galáxia e Nuvens de Magalhães

Bruno Moreira de Souza Dias 25 June 2014 (has links)
Globular clusters are tracers of the formation and evolution of their host galaxies. Kinematics, chemical abundances, age and position of the clusters allows tracing interactions between Milky Way and surrounding galaxies and outlines their chemical enrichment history. In this thesis we analyse mid-resolution spectra of about 800 red giant stars in 51 Galactic globular clusters. It is the first time that [Fe/H] and [Mg/Fe] derived in a consistent way are published for such a huge sample of globular clusters, almost 1/3 of the total number of catalogued clusters. Our metallicities are showed to be more precise than previous works based on mid-resolution spectroscopy. A turnover at [Fe/H] ~ -1.0 is found in the plot [Fe/H] vs. [Mg/Fe] for bulge and halo, although bulge seems to have a more metal-rich turnover, i.e, bulge has more efficient formation than the halo. Comparing the abundances with age the timescale for SNIa to start to become important is 1Gyr. [Fe/H] vs. age corroborates the different star formation efficiency of bulge and halo while [Mg/Fe] does not follow that. Halo was formed in mini halos or dwarf galaxies, and two multiple population clusters had their origin analysed to check it. M 22 seems to have been formed in the Milky Way while NGC 5824 possibly was originated in a dwarf galaxy, although our results are inconclusive for NGC 5824. The Galactic bulge seems to have been formed fast i.e., probably the oldest globular cluster is there. In fact HP 1 has a bluer horizontal branch than expected for its metallicity and we interpret that as an age effect. We determine its distance using light curves of variable stars in order to constrain future age determinations via colour-magnitude diagram. Finally, we investigate interaction between Milky Way and its neighbour galaxy SMC. We find that some star clusters are being stripped out of the SMC main body, which is consistent with tidal stripping scenario for the interaction between the galaxies, instead of ram pressure that would only affect gas. / Aglomerados globulares são traçadores da formação e evolução de suas galáxias. Cinemática, abundâncias químicas, idades e posições dos aglomerados permitem traçar interações entre Via Láctea e galáxias vizinhas e suas histórias de enriquecimento químico. Nesta tese analisamos espectros de média resolução de mais de 800 estrelas gigantes vermelhas em 51 aglomerados globulares Galácticos. É a primeira vez que [Fe/H] and [Mg/Fe] determinados de modo consistente são publicados para uma amostra desse porte, ~1/3 dos objetos catalogados. Nossas metalicidades são mais precisas que trabalhos anteriores similares. Uma quebra em [Fe/H] ~ -1.0 é encontrada no gráfico [Fe/H] vs. [Mg/Fe] para o bojo e halo, embora bojo parece ter uma quebra em [Fe/H] maior, i.e, bojo tem formaçãao mais eficiente que o halo. Comparando abundâncias com idade, a escala de tempo para SNIa ficar importante é 1Gano. [Fe/H] vs. idade corrobora diferentes eficiências de formação do bojo e halo, mas [Mg/Fe] vs. idade não mostra isso. O halo foi formado em mini halos ou galáxias anãs, e dois aglomerados com dispersão em [Fe/H] tiveram suas origens analisadas. M 22 parece ter sido formado na Via Láctea e NGC 5824 possivelmente foi originado em uma galáxia anã, embora os resultados são inconclusivos para NGC 5824. O bojo parece ter sido formado rapidamente e deve possuir o aglomerado mais velho. De fato, HP 1 tem um ramo horizontal mais azul que o esperado para sua metalicidade e vemos isso como um efeito da idade. Determinamos sua distância usando curvas de luz de RR Lyrae de maneira a restringir futuras determinações de idade via diagrama cor-magnitude. Finalmente, investigamos a interação entre Via Láctea e sua galáxia vizinha SMC. Encontramos aglomerados sendo removidos do corpo central da SMC, consistente com cenário de remoção por força de maré para a interação entre as galáxias, em vez de ``ram pressure\'\' que afeta só gás.

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