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Probing the Interstellar Medium and Massive Star Formation using Submillimeter Dust EmissionRoy, Arabindo 31 August 2011 (has links)
This thesis aims to improve our understanding of the early stages of massive star formation and of the physical properties of interstellar clouds. To achieve this, I have used submillimeter
continuum dust emission data obtained by the Balloon-borne Large Aperture submillimeter Telescope (BLAST) in the first science flight in 2005, with a 2-m telescope operating simultaneously at 250, 350, and 500 micron.
Unfortunately, BLAST produced images of
about 3'3 resolution due to an uncharacterized optical problem.
In Chapter~2, I discuss implementation of the Lucy-Richardson (L-R) method of deconvolution to restore BLAST images to near
diffraction limited resolution. Its performance and convergence have been extensively analyzed through simulations and
comparison of deconvolved images with available high-resolution maps.
In Chapter~3, I study diverse phenomena in the Cygnus~X region associated with high mass star-formation.
To interpret the BLAST emission more fully and place the compact sources in context, archival data cubes of 13CO line emission
from KOSMA, MIPS images from the Spitzer Legacy Survey of this region, and 21-cm radio continuum emission from the Canadian
Galactic Plane Survey have been used.
Utilizing available ancillary multi-wavelength observations, the influence of OB stars and stellar clusters on Cygnus~X has been studied,revisiting the well-known DR HII regions and their surroundings in the light of submillimeter continuum dust emission and CO line emission. An effort has been made to assess the evolutionary sequence of the compact sources (spatial extent of about 1~pc) on the basis of L-M diagram and subsequently to relate this sequence to independent empirical evidence and theory.
Using multi-resolution observations, evidence for hierarchical substructures within molecular clouds has been examined.
Finally, in Chapter~4, a multi-wavelength power spectrum analysis of the large scale
brightness fluctuations in the Galactic plane is presented. This analysis has been used to assess the level of cirrus noise which limits the detection of faint sources. A characteristic power law exponent of about -2.7 has been obtained for sub-regions of Aquila and Cygnus~X. The observed relative amplitudes of power spectra at different wavelengths have been related through a spectral energy distribution, thereby determining a characteristic temperature for the Galactic diffuse emission.
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Probing the Interstellar Medium and Massive Star Formation using Submillimeter Dust EmissionRoy, Arabindo 31 August 2011 (has links)
This thesis aims to improve our understanding of the early stages of massive star formation and of the physical properties of interstellar clouds. To achieve this, I have used submillimeter
continuum dust emission data obtained by the Balloon-borne Large Aperture submillimeter Telescope (BLAST) in the first science flight in 2005, with a 2-m telescope operating simultaneously at 250, 350, and 500 micron.
Unfortunately, BLAST produced images of
about 3'3 resolution due to an uncharacterized optical problem.
In Chapter~2, I discuss implementation of the Lucy-Richardson (L-R) method of deconvolution to restore BLAST images to near
diffraction limited resolution. Its performance and convergence have been extensively analyzed through simulations and
comparison of deconvolved images with available high-resolution maps.
In Chapter~3, I study diverse phenomena in the Cygnus~X region associated with high mass star-formation.
To interpret the BLAST emission more fully and place the compact sources in context, archival data cubes of 13CO line emission
from KOSMA, MIPS images from the Spitzer Legacy Survey of this region, and 21-cm radio continuum emission from the Canadian
Galactic Plane Survey have been used.
Utilizing available ancillary multi-wavelength observations, the influence of OB stars and stellar clusters on Cygnus~X has been studied,revisiting the well-known DR HII regions and their surroundings in the light of submillimeter continuum dust emission and CO line emission. An effort has been made to assess the evolutionary sequence of the compact sources (spatial extent of about 1~pc) on the basis of L-M diagram and subsequently to relate this sequence to independent empirical evidence and theory.
Using multi-resolution observations, evidence for hierarchical substructures within molecular clouds has been examined.
Finally, in Chapter~4, a multi-wavelength power spectrum analysis of the large scale
brightness fluctuations in the Galactic plane is presented. This analysis has been used to assess the level of cirrus noise which limits the detection of faint sources. A characteristic power law exponent of about -2.7 has been obtained for sub-regions of Aquila and Cygnus~X. The observed relative amplitudes of power spectra at different wavelengths have been related through a spectral energy distribution, thereby determining a characteristic temperature for the Galactic diffuse emission.
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Maser hunting in the galactic planeQuinn, Lyshia Jane January 2010 (has links)
The process of massive star formation greatly influences its surroundings through their outflows, vast UV output and shocks from their supernova death. They form at great distances from the Earth, enshrouded by dust and gas and have relatively short lifetimes. Astrophysical masers which form in these environments may act as locators of the star forming regions. The aim of this thesis is to study massive star formation using masers to probe these regions. The three main masers used in this thesis are the Class I and Class II methanol masers and the 6035 MHz ex-OH maser. The methanol masers are divided into two groups, Class I and Class II, based on their distance from a central source. The Class I masers are separated 1-2 pc from a central source, the central source is the star forming region. The Class II masers are associated close to a star forming source. They are often associated with a 6035 MHz ex-OH maser. The 6035 MHz ex-OH masers are less common than the 6668 MHz Class I methanol masers. They are often found at sites of the 6668 MHz Class I masers and 1665/7 MHz OH masers. This thesis presents two maser surveys, the Methanol Multibeam (MMB) survey and the Class I survey. The MMB survey is currently surveying the entire Galactic Plane for the 6668 MHz Class II methanol maser and the 6035 MHz ex-OH maser. Over 60\% of the survey in the Southern hemisphere is now complete using the Parkes telescope. Over 900 6668 MHz Class I methanol masers and 110 6035 MHz ex-OH masers have been detected, with all of these masers pinpoint the location of newly forming high mass stars. Follow up observations to determine the precise locations of the 6668 MHz methanol and 6035 MHz ex-OH masers are currently underway. The first ever unbiased Class I survey has observed 1 sq degree of the Galactic Plane for the 44 GHz Class I methanol masers using the Mopra telescope in Australia. The 44 GHz Class II methanol masers are hypothesised to be associated with the outflows of high mass stellar objects. The Class I survey has detected 25 44 GHz methanol masers, with 23 being new detections. A smaller survey for 36 GHz Class I masers was also conducted using the Mopra telescope centered on the region with the highest population of 44 GHz Class I masers.
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The Gas Kinematics of High Mass Star Forming RegionsKlaassen, Pamela D. January 2008 (has links)
The mechanism by which massive stars form is not nearly as well understood
as it is for lower mass stars. For instance, at the onset of massive star formation, it is still not clear whether the mass for a given massive star comes from the turbulent collapse of a dense core (i.e McKee & Tan, 2003) or whether the star continues to accrete material from the cores environment as it grows (i.e. Bonnell et al., 1998). From this point, it is suggested that the cold, massive core (an Infrared Dar Cloud) begins to heat up and form a Hot Core. Later in its protostellar evolution, an HII region forms from the ionizing radiation being produced by the massive star. How, or even whether, accretion onto the massive protostar can continue in the presence of the large outward thermal and radiation pressures from the star is also quite uncertain. Can the star continue to accrete ionized gas (i.e. Keto & Wood, 2006)? Are the accretion rates high enough early on to account for the final observed masses (i.e. Klaassen et al., 2006)? Or, is there some way of minimizing the radiation pressure affecting the infalling gas (i.e. McKee & Ostriker, 2007, and references therein). Here, we present observations which suggest that there is a statistically significant, although short, period in which rotation and infall of molecular gas (which powers a bipolar outflow) continue after the formation of an HII region. This continued infall of material is seen on both large and small scales, and appears to be continuing to produce outflows in many of the sources observed in this study. That it is not seen in all sources suggests that this stage is short lived. / Thesis / Doctor of Philosophy (PhD)
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Conditions initiales de la formation des étoiles massives : Astrochimie de la protoétoile CygX-N63 / Initial conditions of massive star formation : astrochemistry of the protostar CygX-N63Fechtenbaum, Sarah 05 November 2015 (has links)
La naissance des étoiles massives est aujourd’hui encore mal comprise. En particulier, les conditions initiales de leur formation restent largement inconnues. Pour éclairer cette question, nous avons réalisé un relevé spectral complet non biaisé avec le télescope 30 m de l’IRAM vers la protoétoile massive CygX-N63 (M ~ 58 M◦ et L~ 340 L◦). Nous avons mis en évidence une complexité moléculaire significative avec plus de 40 espèces. L’ion CF+ est observé pour la première fois dans une protoétoile. Une possible première détection de l’espèce prébiotique CH2NH dans une protoétoile est aussi proposée, ainsi qu’une première détection de DOCO+. Cette étude spectroscopique, accompagnée d’observations interférométriques avec le Plateau de Bure, permet de séparer la contribution des différentes régions : enveloppe froide, région tiède, région de type hot core et flot bipolaire. L’enveloppe est constituée d’une grande quantité de gaz froid peu évolué, offrant un potentiel important pour la compréhension des phases précoces de la formation stellaire massive et compatible avec un scénario d’effondrement monolithique. La modélisation chimique montre que la chimie de ce gaz est encore hors équilibre, malgré sa haute densité, et confirme la jeunesse de la protoétoile avec un âge chimique de seulement ~ 1000 ans. N63 est un précurseur de hot core plutôt qu’un hot corino massif. Il serait donc possible de distinguer, grâce à des diagnostics chimiques évolutifs, les précurseurs d’étoiles massives des protoétoiles de masse faible ou ntermédiaire. / High-mass star formation is still poorly understood. In particular the initial conditions of their formation are unknown. To explore this question, a complete unbiased spectral survey was conducted with the IRAM 30 m telescope toward the massive protostar CygX-N63 (M~58 M◦ and L~ 340 L◦). A significant molecular complexity is found, with more than 40 species. The ion CF+ is observed for the first time in a protostar. A possible first detection of the prebiotic species CH2NH in a protostar and a first detection of DOCO+ are proposed. This spectroscopic study, along with Plateau de Bure interferometric observations, allows us to separate the contribution of different regions : cold envelope, lukewarm region, hot corelike region and outflow. The envelope contains large amounts of cold and young gas, which gives us the opportunity to better understand the early phases of massive star formation. The chemical modeling shows that the chemistry is still out of equilibrium, despite its high density, and confirms the youth of the protostar with a chemical age of ~ 1000 years. N63 is a hot core precursor rather than a massive hot corino. The use of chemical diagnostics of the evolution would then allow to distinguish massive star precursors from low-mass or intermediate-mass protostars.
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A Deep X-ray Look at a Very Massive Star: HETGS Spectroscopy of the Blue Hypergiant Cyg OB2-12 (HIP 101364)Huenemoerder, David, Oskinova, Lidia M., Ignace, Richard, Hamann, Wolf-Rainer, Schulz, Nobert S., Neilson, Hilding, Shenar, Tomer 01 January 2016 (has links)
We have obtained a Chandra/HETGS spectrum of one of the most massive and luminous stars in the Galaxy: the blue hypergiant Cyg OB2-12 (HIP 101364, spectral type B3 Ia+). This is the first measurement at high resolution of X-ray spectral lines in a blue hypergiant and allows comparison of X-ray properties between massive stars at different but related evolutionary stages: O-type supergiants, luminous blue variables, Wolf-Rayet stars, and blue hypergiants stars. The new data provide a look at how the most massive stars shed mass during their pre-supernova evolution. We find that In Cyg OB2-12 the resolved Si and Mg lines are broadened by about 1000 km/s (FWHM). The lines, however, do not show appreciable centroid shifts (/s), which would be much larger for canonical moderately thick winds (~500 km/s). The He-like Mg XI lines show evidence of photo-excitation, implying a wind origin close to the UV-bright photosphere. The spectrum also indicates relatively high temperature plasma, up to 22 MK (1.9 keV), showing significant continuum and emission lines below 5A (above 2.5 keV). Hence, at first glance, the spectrum resembles neither an O-star thick wind, nor a magnetically confined (narrow-line) plasma. We will present more detailed wind models using both X-ray and UV spectra to constrain fundamental physical parameters of this star.
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Variable Polarization from Co-Rotating Interaction Regions in Massive Star WindsIgnace, Richard 01 January 2017 (has links)
Co-rotating Interaction Regions (CIRs) are a well-known phenomenon in the solar wind, and is a favored culprit for certain cyclical behavior observed in the spectra of some massive stars. A prime example are the discrete absorption components (DACs) seen in the UV wind lines of many O stars. Here we report on modeling for the variable continuum polarization that could arise from the presence of CIR structures. Considerations are limited to optically thin scattering. Using a core-halo approach for winds that are thick to electron scattering, an application to observed variable polarization of WR6 (EZ CMa; HD 50896) is presented.
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Radiative feedback from massive stars in low-metallicity environments / 低金属度環境における大質量星輻射の影響Fukushima, Hajime 25 March 2019 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第21565号 / 理博第4472号 / 新制||理||1642(附属図書館) / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)准教授 細川 隆史, 教授 田中 貴浩, 教授 井岡 邦仁 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM
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X-ray Emissions from Clump Bowshocks in Massive Star WindsIgnace, Richard, Waldron, W., Cassinelli, N. 01 January 2012 (has links)
Clumped structures in wind flows have substantially altered our interpretations of multiwavelength data for understanding mass loss from massive stars. Embedded wind shocks have long been the favored explanation for the hot plasma production and X-ray generation in massive star winds. This contribution reports on line profile shapes fromthe clump bowshock model and summarizes the temperature and emission measure distributions throughout the wind for this model with a focus on results that can be tested against observations.The authors acknowledge funding support for this work from a NASA grant(NNH09CF39C
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Radio Emission from Macroclumps in Massive Star WindsIgnace, Richard 01 January 2014 (has links)
Massive star winds are understood to be structured. Structures can come in the form of co-rotating interaction regions, which are globally organized flow streams that thread the winds. Structures can also be stochastic in nature, generically referred to as "clumps". The theory for interpreting the radio emissions from randomly distributed microclumps in single star winds is established. Results are presented here for macroclumping, in which the radiative transfer is sensitive to the clump geometry. Two cases are compared: spherical clumps and pancake-like fragments. The geometry of macroclumps can influence the power-law slope of the long wavelength spectral energy distribution.
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