ergs.sc.edu
Projects
http://www.ergs.sc.edu//projects.html
Nuclear Fuel Cycle Component Collection. Low-level essential physics models for fuel cycle components in C. High-level fuel cycle interface in Python. Lead Developer, September 2006 - present. Http:/ bright-dev.github.io/]. Agent-Based Nuclear Fuel Cycle Simulator. Discrete facilities with discrete material transactions. Low barrier to entry, rapid payback to adoption. Project Lead, June 2013 - July 2015. Tools for building scientific applications. Traits, Chaco, Mayavi. Developer, May 2010 - October 2011.
cosmo.gatech.edu
astro-ph | Computational Cosmology at Georgia Tech
http://cosmo.gatech.edu/category/astro-ph
Computational Cosmology at Georgia Tech. The first stars: formation and feedback. Dwarf galaxy formation and evolution. Black hole growth in the early universe. Here are the papers from astro-ph that I find interesting. I tend to update daily, so if there is a day missing, I probably didn’t find any papers relevant to our group. Eilers et al.,. Implications of $z sim 6$ Quasar Proximity Zones for the Epoch of Reionization and Quasar Lifetimes. Elbert et al.,. Mas-Ribas et al.,. Dopita & Sutherland,.
cosmo.gatech.edu
January | 2017 | Computational Cosmology at Georgia Tech
http://cosmo.gatech.edu/2017/01
Computational Cosmology at Georgia Tech. The first stars: formation and feedback. Dwarf galaxy formation and evolution. Black hole growth in the early universe. Monthly Archives: January 2017. Heller & Hippke,. Deceleration of high-velocity interstellar photon sails into bound orbits at $ alpha$ Centauri. Spherical Panoramas for Astrophysical Data Visualization. Gabbasov et al.,. Consistent SPH Simulations of Protostellar Collapse and Fragmentation. Aoki et al.,. Bottrell et al.,. Brooks et al.,. WOMBAT:...
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Kirk Barrow | Computational Cosmology at Georgia Tech
http://cosmo.gatech.edu/members/kirk-barrow
Computational Cosmology at Georgia Tech. The first stars: formation and feedback. Dwarf galaxy formation and evolution. Black hole growth in the early universe. BS in Aerospace Engineering, Georgia Institute of Technology. Barrow, K. S. S. Wise, J. H., Norman, M. L., O’Shea, B. W., Xu, H. 2017, “First Light: Exploring the Spectra of High-Redshift Galaxies in the Renaissance Simulations”,. Monthly Notices of the Royal Astronomical Society. Center for Relativistic Astrophysics.
cosmo.gatech.edu
Chao Shi | Computational Cosmology at Georgia Tech
http://cosmo.gatech.edu/members/chao-shi
Computational Cosmology at Georgia Tech. The first stars: formation and feedback. Dwarf galaxy formation and evolution. Black hole growth in the early universe. I am interested in black hole formation and co-evolution with host galaxies. Currently I’m investigating seed black hole assembly mechanisms in the early universe through cosmological simulations, trying to map out possible scenarios in which supermassive black holes (SMBH) can form in the first billion years of the universe.
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Notes | Computational Cosmology at Georgia Tech
http://cosmo.gatech.edu/category/notes
Computational Cosmology at Georgia Tech. The first stars: formation and feedback. Dwarf galaxy formation and evolution. Black hole growth in the early universe. These are usually notes from talks that I’ve attended. A bash function to make movies. Movie output.mp4 15 DD* density*.png. That produces a movie output.mp4 at 15 frames/sec from the files included in the wildcard. Lt 3 ]; then. Usage: movie output movie FPS files". Make sure that the width is even (yuv420p format for QT). In Palm Cove, QLD, Aus...
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New Paper: The Grackle | Computational Cosmology at Georgia Tech
http://cosmo.gatech.edu/2016/11/new-paper-the-grackle
Computational Cosmology at Georgia Tech. The first stars: formation and feedback. Dwarf galaxy formation and evolution. Black hole growth in the early universe. New Paper: The Grackle. A couple of weeks ago, we submitted the method paper ( arXiv. On Grackle, a chemistry and cooling library for astrophysical simulations and calculations, for publication. The paper is led by Britton Smith. Now at UC-San Diego), and the code and documentary can be found here. Leave a Reply Cancel reply. 102;our.
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Members | Computational Cosmology at Georgia Tech
http://cosmo.gatech.edu/members
Computational Cosmology at Georgia Tech. The first stars: formation and feedback. Dwarf galaxy formation and evolution. Black hole growth in the early universe. Group in Aug 2015. L-R: Shi, Koh, Barrow, Gilbert, Aykutalp, Wise, Cunningham, Nelson, Ge. Inset: Park. Group in Aug 2015. L-R: Wise, Shi, Barrow, Aykutalp, Ge, Gilbert, Koh, Cunningham, Nelson. Inset: Park. Photos taken by postdoc Claudia Lazarro on her last day at the CRA! Postdoc; primary mentor: Bogdanovic. Kevin Choi (Physics / CS). Erin Cal...
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Qi Ge | Computational Cosmology at Georgia Tech
http://cosmo.gatech.edu/members/qi-ge
Computational Cosmology at Georgia Tech. The first stars: formation and feedback. Dwarf galaxy formation and evolution. Black hole growth in the early universe. Center for Relativistic Astrophysics. Georgia Tech School of Physics. 8226; 837 State Street • Atlanta, GA 30332 • Legal and Privacy Information.
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Aycin Aykutalp | Computational Cosmology at Georgia Tech
http://cosmo.gatech.edu/members/aycin-aykutalp
Computational Cosmology at Georgia Tech. The first stars: formation and feedback. Dwarf galaxy formation and evolution. Black hole growth in the early universe. Postdoctoral Researcher ( TCAN. PhD in Astrophysics, University of Groningen (2012). BSc in Physics, University of Ankara. Publication list from ADS. Van Kempen, T. A. 24 authors (including A. Aykutalp. 2015, “Outflow forces in intermediate mass star formation”,. 797, 139 ( arXiv. Mesinger, A., Aykutalp, A. 8221;, MNRAS, submitted ( arXiv.
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