Your search keyword '"Todoroki K"' showing total 3 results

1. ASACUSA STATUS REPORT - ASACUSA progress during 2010 and plans for 2011

Author

Barna, D, Charlton, M, Corradini, M, Dax, A, Enomoto, Y, Federmann, S, Friedreich, S, Hayano, RS, Higaki, H, Hori, M, Horváth, D, Hunniford, CA, Juhász, B, Kanai, Y, Kim, C, Knudsen, H, Kristiansen, H-P, Kobayashi, T, Kuroda, N, Leali, M, Lodi-Rizzini, E, Lund, M, Mascagna, V, Massiczek, O, Matsuda, Y, McCullough, RW, Michishio, K, Møller, SP, Pask, T, Pirkl, W, Sótér, A, Todoroki, K, Tőkési, K, Thomsen, HD, Torii, HA, Uggerhøj, H, Venturelli, L, Widmann, E, Yamazaki, Y, Zalán, P, Zmeskal, J, and Zurlo, N

Subjects

Detectors and Experimental Techniques

Abstract

ASACUSA progress during 2010 and plans for 2011

Published

2011

2. ASACUSA Status Report

Author

Hayano, Ryugo, Barna, D, Charlton, M, Corradini, M, Dax, A, Enomoto, Y, Federmann, S, Friedreich, S, Hayano, R S, Higaki, H, Hori, M, Horváth, D, Hunniford, C A, Juhász, B, Kanai, Y, Kim, C, Knudsen, H, Kristiansen, H-P, Kobayashi, T, Kuroda, N, Leali, M, Lodi-Rizzini, E, Lund, M, Mascagna, V, Massiczek, O, Matsuda, Y, McCullough, R W, Michishio, K, Møller, S P, Pask, T, Pirkl, W, Sótèr, A, Todoroki, K, Tokési, K, Thomsen, H D, Torii, H A, Uggerhøj, U, Venturelli, L, Widmann, E, Yamazaki, Y, Zal´an, P, Zmeskal, J, and Zurlo, N

Subjects

Detectors and Experimental Techniques

Abstract

ASACUSA progress during 2009 and plans for 2010

Published

2010

3. THEAGORAHIGH-RESOLUTION GALAXY SIMULATIONS COMPARISON PROJECT. II. ISOLATED DISK TEST

Author

Daniel Ceverino, Thomas P. Quinn, Oscar Agertz, Brian W. O'Shea, Ikkoh Shimizu, Ben W. Keller, Vadim A. Semenov, Colin DeGraf, Spencer Clark Wallace, John H. Wise, Joel R. Primack, Alessandro Lupi, Nir Mandelker, Lucio Mayer, Keita Todoroki, Britton D. Smith, Jun-Hwan Choi, Avishai Dekel, Robert Thompson, Samantha M. Benincasa, Philip F. Hopkins, Kentaro Nagamine, Sijing Shen, Robert Feldmann, Cameron Hummels, Nickolay Y. Gnedin, Tom Abel, Kenza S. Arraki, Samuel N. Leitner, Sukanya Chakrabarti, James Wadsley, Michael J. Butler, Santi Roca-Fàbrega, Anatoly Klypin, Romain Teyssier, Christine M. Simpson, Piero Madau, Sarah Nickerson, Nathan J. Goldbaum, Matthew J. Turk, Ji-hoon Kim, Yves Revaz, Hui Li, Kim, J, Agertz, O, Teyssier, R, Butler, M, Ceverino, D, Choi, J, Feldmann, R, Keller, B, Lupi, A, Quinn, T, Revaz, Y, Wallace, S, Gnedin, N, Leitner, S, Shen, S, Smith, B, Thompson, R, Turk, M, Abel, T, Arraki, K, Benincasa, S, Chakrabarti, S, Degraf, C, Dekel, A, Goldbaum, N, Hopkins, P, Hummels, C, Klypin, A, Li, H, Madau, P, Mandelker, N, Mayer, L, Nagamine, K, Nickerson, S, O'Shea, B, Primack, J, Roca-Fabrega, S, Semenov, V, Shimizu, I, Simpson, C, Todoroki, K, Wadsley, J, and Wise, J

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), formation [galaxies], Radiative cooling, ISM: structure, astro-ph.GA, FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Astronomy & Astrophysics, Physical Chemistry, Atomic, 01 natural sciences, methods: numerical, 010305 fluids & plasmas, Particle and Plasma Physics, kinematics and dynamics [galaxies], 0103 physical sciences, Galaxy formation and evolution, galaxies: formation, Nuclear, theory, 010303 astronomy & astrophysics, evolution [galaxies], Astrophysics::Galaxy Astrophysics, Galaxy rotation curve, Physics, theory [cosmology], Star formation, Molecular, numerical [methods], Astronomy and Astrophysics, Scale height, Astrophysics - Astrophysics of Galaxies, Galaxy, Supernova, Distribution function, Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), astro-ph.CO, galaxies: kinematics and dynamic, structure [ISM], galaxies: evolution, Astronomical and Space Sciences, Astrophysics - Cosmology and Nongalactic Astrophysics, Physical Chemistry (incl. Structural)

Abstract

Using an isolated Milky Way-mass galaxy simulation, we compare results from 9 state-of-the-art gravito-hydrodynamics codes widely used in the numerical community. We utilize the infrastructure we have built for the AGORA High-resolution Galaxy Simulations Comparison Project. This includes the common disk initial conditions, common physics models (e.g., radiative cooling and UV background by the standardized package Grackle) and common analysis toolkit yt, all of which are publicly available. Subgrid physics models such as Jeans pressure floor, star formation, supernova feedback energy, and metal production are carefully constrained across code platforms. With numerical accuracy that resolves the disk scale height, we find that the codes overall agree well with one another in many dimensions including: gas and stellar surface densities, rotation curves, velocity dispersions, density and temperature distribution functions, disk vertical heights, stellar clumps, star formation rates, and Kennicutt-Schmidt relations. Quantities such as velocity dispersions are very robust (agreement within a few tens of percent at all radii) while measures like newly-formed stellar clump mass functions show more significant variation (difference by up to a factor of ~3). Systematic differences exist, for example, between mesh-based and particle-based codes in the low density region, and between more diffusive and less diffusive schemes in the high density tail of the density distribution. Yet intrinsic code differences are generally small compared to the variations in numerical implementations of the common subgrid physics such as supernova feedback. Our experiment reassures that, if adequately designed in accordance with our proposed common parameters, results of a modern high-resolution galaxy formation simulation are more sensitive to input physics than to intrinsic differences in numerical schemes., 28 pages, 35 figures, Accepted for publication in the Astrophysical Journal, Image resolution greatly reduced, High-resolution version of this article is available at http://www.jihoonkim.org/agora/AGORA_Paper4_draft.pdf, The first paper of the AGORA Initiative is at http://adsabs.harvard.edu/abs/2014ApJS..210...14K, More information on AGORA is at http://www.AGORAsimulations.org/

Published

2016