Center for Computational Astrophysics

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Featured News

Center for Computational Astrophysics The Largest Suite of Cosmic Simulations for AI Training Is Now Free to Download; Already Spurring Discoveries By Thomas Sumner

The CAMELS project uses machine learning and thousands of simulations to extract secrets from the cosmos

The Center for Computational Astrophysics executes research programs on systems ranging in scales from planets to cosmology, creating and using computational tools for data analysis and theory. It also supports, trains, and equips diverse members of the global astrophysics community and convenes events and workshops in New York City.

Our Mission:
▪ Solve important, hard problems in computational astrophysics. Focus on problems that we at Flatiron are uniquely positioned to solve. ▪ Invent and propagate better data-analysis practices, analytical methods and computational methods for the global astrophysics community, with a focus on rigor. ▪ Develop, maintain and contribute to open-source software packages, open data and their communities. ▪ Create and support a community of astrophysics doers, learners and mentors in New York City and beyond. ▪ Train and launch diverse early-career researchers in astrophysics with unique capabilities in computational methods.

Groups

Astronomical Data The Astronomical Data group solves hard problems in measurement and discovery. Depending on the context, the challenges in these problems can stem from the sheer size or complexity of the datasets, the precision requirements for measurements, or the subtlety or structure of the signals of interest. Read More

Compact Objects The Compact Objects group studies the astrophysics of neutron stars and black holes, using them as unique cosmic laboratories for exploring the physics of extreme gravitational and electromagnetic fields and of matter at extreme densities. Read More

Cosmology X Data Science The Cosmology X Data Science group develops novel algorithms and ways of thinking to apply to datasets to answer fundamental questions about the cosmos. Read More

Dynamics The Dynamics Group explores how collective dynamics driven by gravitational interactions shape structures — planets, stars and galaxies — in the universe. This topic sits at the crossroads between large observed and simulated datasets that describe these structures in the real and model universe. Read More

Galaxy Formation The Galaxy Formation group is developing the numerical tools and physical insights necessary to understand how galaxies form and evolve within a cosmological context. Read More

Gravitational Wave Astronomy The detection of gravitational waves from the merging binary black hole GW150914, followed by the (likely) binary black hole mergers LVT151012, GW151226, and GW170104, means the era of gravitational wave astronomy is upon us. Read More

Planet Formation The Planet Formation group develops the theoretical framework and computational methods needed to understand the origin and evolution of planets and planetary systems. Read More

News & Announcements

January 07, 2022

SCC Guest Researcher and CCA Collaborator Kelle Cruz Named as a Fellow of the American Astronomical Society

January 06, 2022

The Largest Suite of Cosmic Simulations for AI Training Is Now Free to Download; Already Spurring Discoveries By Thomas Sumner

November 29, 2021

Sabbatical Visiting Researcher Program 2022-2023 – Center for Computational Astrophysics

Upcoming Events

No events are scheduled in January.

Dan Huber: The Demographic of Star and Exoplanets in the Era of TESS Gaia

December 16, 2022
CCA Colloquium: Dan Huber

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Dan Huber: The Demographic of Star and Exoplanets in the Era of TESS Gaia December 16, 2022 |
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GothamFest 2021 Day 2 – Session 1: Cosmology

December 10, 2021
GothamFest 2021

GothamFest 2021 Day 2 – Session 2: Compact Objects

December 10, 2021
GothamFest 2021

GothamFest 2021 Day 2 – Session 3: Milky Way & Local Group

December 10, 2021
GothamFest 2021

Research Highlights

December 10, 2020

Learning the Evolution of the Universe in N-body Simulations

Chang Chen, Y. Li, Francisco Villaescua-Navarro, S. Ho, Anthony Pullen

Understanding the physics of large cosmological surveys down to small (nonlinear) scales will significantly improve our knowledge of the Universe.…

arxiv:2012.05472

2020

The Quijote Simulations

Govind Menon, ChangHoon Hahn, Elena Massara, Arka Banerjee, Ana Maria Delgado, Doogesh Kodi Ramanah, Tom Charnock, E. Giusarma, Y. Li, Erwan Allys, Antoine Brochard, Cora Uhlemann, Chi-Ting Chiang, S. He, Alice Pisani, Andrej Obuljen, Yu Feng, Emanuele Castorina, Gabriella Contardo, Christina D. Kreisch, Andrina Nicola, Justin Alsing, Roman Scoccimarro, Licia Verde, Matteo Viel, S. Ho, S. Mallat, Benjamin Wandelt, F. Villaescusa-Navarro, D. Spergel

The Quijote simulations are a set of 44,100 full N-body simulations spanning more than 7000 cosmological models in the $\{{{\rm{\Omega…

The Astrophysical Journal Supplement Series

January 14, 2020

Temperatures and Metallicities of M dwarfs in the APOGEE Survey

J. Birky, D. Hogg, A.W. Mann, A. Burgasser

M dwarfs have enormous potential for our understanding of structure and formation on both Galactic and exoplanetary scales through their…

arXiv:2001.04962

Director

Julianne Dalcanton, Ph.D.

Director, CCA

Julianne Dalcanton joined the Simons Foundation in September 2021 as the director of the Flatiron Institute’s Center for Computational Astrophysics (CCA). Her research specializes in the origins and evolution of galaxies.

Center for Computational Astrophysics

Featured News

Groups

Projects

News & Announcements

Upcoming Events

Event Videos

Dan Huber: The Demographic of Star and Exoplanets in the Era of TESS Gaia

GothamFest 2021 Day 2 – Session 1: Cosmology

GothamFest 2021 Day 2 – Session 2: Compact Objects

GothamFest 2021 Day 2 – Session 3: Milky Way & Local Group

Research Highlights

Learning the Evolution of the Universe in N-body Simulations

The Quijote Simulations

Temperatures and Metallicities of M dwarfs in the APOGEE Survey

Director

Julianne Dalcanton, Ph.D.