Tag Archives: CGM

20 Mar 2020

  • (abs, pdf) Fielding et al., Multiphase Gas and the Fractal Nature of Radiative Turbulent Mixing Layers
  • (abs, pdf) Nasirudin et al., The Impact of Realistic Foreground and Instrument Models on 21cm Epoch of Reionization Experiments
  • (abs, pdf) Harada et al., The Boltzmann-radiation-hydrodynamics Simulations of the Core-collapse Supernova with the Different Equations of State: the Role of Nuclear Composition and the Behavior of Neutrinos
  • (abs, pdf) Huerta et al., Convergence of Artificial Intelligence and High Performance Computing on NSF-supported Cyberinfrastructure
  • (abs, pdf) Reeves et al., An Application of Gaussian Process Modeling for High-order Accurate Adaptive Mesh Refinement Prolongation

20 Feb 2020

  • (abs, pdf) Sanchez, Let us bury the prehistoric $h$: arguments against using $h^{-1}{\rm Mpc}$ units in observational cosmology
  • (abs, pdf) Regos et al., Detecting Pair-Instability Supernovae at z<5 with the James Webb Space Telescope
  • (abs, pdf) List & Lewis, A unified framework for 21cm tomography sample generation and parameter inference with Progressively Growing GANs
  • (abs, pdf) Toyouchi et al., Gaseous dynamical friction under radiative feedback: do intermediate-mass black holes speed up or down?
  • (abs, pdf) Cielo et al., Honing and proofing Astrophysical codes on the road to Exascale. Experiences from code modernization on many-core systems
  • (abs, pdf) Ding et al., Testing the fidelity of simulations of black hole — galaxy co-evolution at z ~ 1.5 with observations
  • (abs, pdf) Lehner et al., Project AMIGA: The Circumgalactic Medium of Andromeda
  • (abs, pdf) Zick et al., Towards Studying Hierarchical Assembly in Real Time: A Milky Way Progenitor Galaxy at z = 2.36 under the Microscope