Colloquia Schedule Spring 2015
Colloquia are on Tuesdays (unless otherwise indicated) at 3:30 pm in RLM 15.216B
Tinsley Visiting Scholar: Planetary Group "Habitability of Planets Orbiting M Dwarfs" University of Washington host: Mike Endl |
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"The Elusive and Ionized Gas Surrounding the Magellanic System" Texas Christian University host: Cyndi Froning |
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"Probing the Nature of Accretion and Planet Formation in Protoplanetary Disks: Connecting Theory with ALMA Observations" Southwest Research Institute (SwRI) host: Neal Evans |
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"The Large Reservoirs of Gas Around Galaxies" UCO/Lick Observatory host: Volker Bromm |
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Special Colloquium: "Insights into Galaxy Formation from z=15 to the Present Day" Space Telescope Science Institute (STScI) host: John Kormendy |
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"Towards a Complete Theory of Lyman-Alpha Transfer in and around Galaxies" University of Oslo: Institute of Theoretical Astrophysics host: Steve Finkelstein |
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Special Colloquium: "Three Problems in Trying to Form Galaxies (and how ISM Physics can Save Us)" Haverford College host: Chris Sneden |
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"The Local Universe as a Cosmology Laboratory" University of Maryland host: Volker Bromm |
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Special Colloquium: "New Tools for Galactic Archaeology from the Milky Way" Johns Hopkins University host: Adam Kraus |
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"Massive Galaxy Growth since Cosmic Noon" Max Planck Institut fur Extraterrestrische Physik host: Chris Sneden |
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Tinsley Visiting Professor "David vs. Goliath: Exploiting the Black Hole Mass Scale to Better Constrain Accretion Physics" University of Amsterdam host: Pawan Kumar |
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Spring Break: March 16 - 20: no Colloquium being held this week. |
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"MOSFIRE: the Multi-Object Spectrometer for Infrared Exploration at Keck Observatory" University of California, Los Angeles host: Gregory Mace |
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Tinsley Visiting Scholar: Stars Group "SPHERE: the New High-contrast Imager for the ESO-VLT" INAF - Istituto Nazionale di Astrofisica, Osservatorio Astronomico di Padova, Italy host: Chris Sneden |
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No talk scheduled. |
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"Star-Formation Driven Molecular Superwinds as Understood from the Two Nearest Starburst Galaxies (and a Small Survey)" Ohio State University host: Neal Evans |
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Qualifying Exam/2nd-Year Defense "Chemical Analyses of Metal-Poor Stars: A New Approach" University of Texas at Austin | |
"Tracking Planet Footprints in Dusty Disks" Boston University host: Adam Kraus |
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Qualifying Exam/2nd-Year Defense "Connecting the Dots: Tracking Galaxy Evolution at 3 <= z <= 7 using Fixed Cumulative Number Density in SPH Simulations" University of Texas at Austin | |
Tinsley Visiting Scholar: Extragalactic Group "Early Galaxies: Alive, Dead, Transitioning and/or Active" Max Planck Institut fur Extraterrestrische Physik host: Shardha Jogee |
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PhD Defense "Innovative Technologies for - and Observational Studies of - Star and Planet Formation" University of Texas at Austin |
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Qualifying Exam/2nd-Year Defense "External Inverse-Compton Emission from Jetted Tidal Disruption Events" University of Texas at Austin |
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PhD Defense "On the Nature of Emission from Relativistic Jets" University of Texas at Austin |
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Qualifying Exam/2nd-Year Defense "The Structure of Class 0 Protostars: BHR71 in Herschel View" We performed a comprehensive analysis to the Herschel spectra of BHR71, a embedded Class 0 protostar. We recover 66 lines in the central spaxel, and more than 700 lines detected in all spaxels in PACS, and SPIRE. The CO rotational diagram analysis shows three excitation temperature components, 32 K, 136 K, and 462 K. And low-J CO lines trace the outflow while the high-J CO lines are centered. The emissions of water traces the outflow in large scale, while water emissions populate along the equatorial plane in small scale. We model the structure of envelope using dust radiative transfer by Hyperion to fit the observed spectral energy distribution (SED) by Spitzer and Herschel. The model incorporates rotational collapse and outer static envelope as well as outflow cavity and disk. Our exploration of parameter space shows that the evolution of collapsing envelope can be constrained by Herschel spectra and the structure of outflow cavity plays a critical role in the shorter wavelength. We found the density profile of cavity with a power law with a constant inner region can reproduce the observations. The high central luminosity in the best-fit model shows a hint of a higher accretion rate than the rate derived from collapse model. Our model constrains BHR71 with the age of 30,000 years with the total gas mass of 3.75 Solar mass. University of Texas at Austin |
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Qualifying Exam/2nd-Year Defense "Do Metal-Polluted Stars of the ZZ Ceti Instability Strip Have a Distinct Asteroseismic Signature?" University of Texas at Austin |
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Qualifying Exam/2nd-Year Defense "Peering Inside Galaxies in the First Two Billion Years" University of Texas at Austin |
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"Signatures of Neutron Star Mergers" Columbia University host: Pawan Kumar |
Visitors to the Department of Astronomy can find detailed information and maps on our Visiting Austin Page.
Please report omissions/corrections to: G. Orris at argus@astro.as.utexas.edu.
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