Marc White
Australian National University
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by Marc White.
Monthly Notices of the Royal Astronomical Society | 2014
Marc White; Geoffrey V. Bicknell; Peter J. McGregor; Raquel Salmeron
The origin of bipolar outflow asymmetry in young stellar objects (YSOs) remains poorly understood. It may be due to an intrinsically asymmetric outflow launch mechanism, or it may be caused by the effects of the ambient medium surrounding the YSO. Answering this question is an important step in understanding outflow launching. We have investigated the bipolar outflows driven by the T Tauri star DG Tauri on scales of hundreds of AU, using the Near-infrared Integral Field Spectrograph (NIFS) on Gemini North. The approaching outflow consists of a well-collimated jet, nested within a lower-velocity disc wind. The receding outflow is composed of a single-component bubble-like structure. We analyse the kinemat- ics of the receding outflow using kinetic models, and determine that it is a quasi-stationary bubble with an expanding internal velocity field. We propose that this bubble forms because the receding counterjet from DG Tau is obstructed by a clumpy ambient medium above the circumstellar disc surface, based on similarities between this structure and those found in the modeling of active galactic nuclei outflows. We find evidence of interaction between the obscured counterjet and clumpy ambient material, which we attribute to the large molecular envelope around the DG Tau system. An analytical model of a momentum-driven bubble is shown to be consistent with our interpretation. We conclude that the bipolar outflow from DG Tau is intrinsically symmetric, and the observed asymmetries are due to environmental effects. This mechanism can potentially be used to explain the observed bipolar asymmetries in other YSO outflows.
The Astrophysical Journal | 2016
Michihiro Takami; Yu-Jie Wei; Mei-Yin Chou; Jennifer L. Karr; Tracy L. Beck; Nadine Manset; W. P. Chen; Ryuichi Kurosawa; Misato Fukagawa; Marc White; Roberto Galván-Madrid; Hauyu Baobab Liu; Tae-Soo Pyo; J.-F. Donati
We present monitoring observations of the active T Tauri star RW Aur, from 2010 October to 2015 January, using optical high-resolution (R>10000) spectroscopy with CFHT-ESPaDOnS. Optical photometry in the literature shows bright, stable fluxes over most of this period, with lower fluxes (by 2-3 mag.) in 2010 and 2014. In the bright period our spectra show clear photospheric absorption, complicated variation in the Ca II 8542 A emission}profile shapes, and a large variation in redshifted absorption in the O I 7772 and 8446 A and He I 5876 A lines, suggesting unstable mass accretion during this period. In contrast, these line profiles are relatively uniform during the faint periods, suggesting stable mass accretion. During the faint periods the photospheric absorption lines are absent or marginal, and the averaged Li I profile shows redshifted absorption due to an inflow. We discuss (1) occultation by circumstellar material or a companion and (2) changes in the activity of mass accretion to explain the above results, together with near-infrared and X-ray observations from 2011-2015. Neither scenario can simply explain all the observed trends, and more theoretical work is needed to further investigate their feasibilities.
Publications of the Astronomical Society of Australia | 2018
Christian Wolf; Christopher A. Onken; Lance Luvaul; Brian Paul Schmidt; Michael S. Bessell; Seo-Won Chang; Gary S. Da Costa; Dougal Mackey; Tony Martin-Jones; Simon J. Murphy; Tim Preston; Richard Allen Scalzo; Li Shao; Jon Smillie; Patrick Tisserand; Marc White; F. Yuan
We present the first data release (DR1) of the SkyMapper Southern Survey, a hemispheric survey carried out with the SkyMapper Telescope at Siding Spring Observatory in Australia. Here, we present the survey strategy, data processing, catalogue construction and database schema. The DR1 dataset includes over 66,000 images from the Shallow Survey component, covering an area of 17,200 deg
Software and Cyberinfrastructure for Astronomy V | 2018
Michael Ireland; Joao Bento; Kathleen Labrie; Lance Luvaul; Jon G. Nielsen; Chris Simpson; Marc White; Tony Farrell
^2
Monthly Notices of the Royal Astronomical Society | 2014
Marc White; Peter J. McGregor; Geoffrey V. Bicknell; Raquel Salmeron; Tracy L. Beck
in all six SkyMapper passbands
Publications of the Astronomical Society of Australia | 2017
Elisabete da Cunha; Andrew M. Hopkins; Matthew Colless; Edward N. Taylor; Chris Blake; Cullan Howlett; Christina Magoulas; John R. Lucey; Claudia del P. Lagos; K. Kuehn; Yjan A. Gordon; Dilyar Barat; Fuyan Bian; Christian Wolf; Michael J. Cowley; Marc White; Ixandra Achitouv; Maciej Bilicki; Joss Bland-Hawthorn; Krzysztof Bolejko; Michael J. I. Brown; Rebecca Brown; Julia J. Bryant; Scott M. Croom; Tamara M. Davis; Simon P. Driver; Miroslav Filipovic; Samuel R. Hinton; M. Johnston-Hollitt; D. Heath Jones
uvgriz
Monthly Notices of the Royal Astronomical Society | 2016
Marc White; Geoffrey V. Bicknell; Ralph S. Sutherland; Raquel Salmeron; Peter J. McGregor
, while the full area covered by any passband exceeds 20,000 deg
Archive | 2017
Christian Wolf; Christopher A. Onken; Lance Luvaul; Brian Paul Schmidt; Michael S. Bessell; Seo-Won Chang; Gary S. Da Costa; Dougal Mackey; Simon J. Murphy; Li Shao; Jon Smillie; Marc White
^2
Archive | 2017
Christian Wolf; Christopher A. Onken; Lance Luvaul; Brian Paul Schmidt; Michael S. Bessell; Seo-Won Chang; Gary S. Da Costa; Dougal Mackey; Simon J. Murphy; Li Shao; Jon Smillie; Marc White
. The catalogues contain over 285 million unique astrophysical objects, complete to roughly 18 mag in all bands. We compare our
Archive | 2017
Christian Wolf; Christopher A. Onken; Lance Luvaul; Brian Paul Schmidt; Michael S. Bessell; Seo-Won Chang; Gary S. Da Costa; Dougal Mackey; Simon J. Murphy; Li Shao; Jon Smillie; Marc White
griz
