2nd NAOJ-ECT Workshop on Many Riddles About Core-Collapse Supernovae:1 Bethe and Beyond (June 27-July 1)

2nd NAOJ-ECT Workshop on Many Riddles About Core-Collapse Supernovae: 1 Bethe and Beyond

June 27(Man)-July 1(Fri), 2016
National Astronomical Observatory of Japan, Mitaka, Tokyo
NAOJ Grant for Research Assemblies
Grant-in-Aid for workshop on Exploratory Research from Center for the Promotion of Integrated Sciences in SOKENDAI
JICFuS (Priority Issue 9 to be Tackled by Using the Post-K Computer)


Core-collapse supernovae are one of the most exciting targets for interdisciplinary science. The aim of the workshop is to exchange the opinions based on the different fields, such as nuclear physics, stellar evolution, plasma physics, neutrino physics (including radiation hydrodynamics) and general relativity. Recently we obtained several explosion models in the detailed numerical simulations. Those models might become the clue to understand the next riddles of core-collapse supernovae by providing the data that can be compared to the associated multi-messengers (neutrinos, gravitational waves and photons). The discussion presented in the workshop will visualize the next direction for the investigation of the core-collapse supernovae.


6/27 (Mon) Explosion Mechanism
6/28 (Tue) Nucleosynthesis and Observation of SNe
6/29 (Wed) Beyond one Bethe? (magnetar and superluminous supernovae)
6/30 (Thu) Stellar evolution and black hole formation
7/01 (Fri) Multi-messenger astronomy

Program for Promoting Researches on the Supercomputer Fugaku

BasicScience for Emergence and Functionality in Quantum Matter Simulation for basic science: from fundamental laws of particles to creation of nuclei Human-scale whole brain simulation with connectome analysis and structure-function estimation Development of nuclear fusion plasma confinement physics Large Ensemble Atmospheric and Environmental Prediction for Disaster Prevention and Mitigation Large-scale numerical simulation of earthquake generation, wave propagation and soil amplification Quantum-Theory-Based Multiscale Simulations toward the Development of Next-Generation Energy-Saving Semiconductor Devices Computational and Data Science Study for ET Revolution by Development of Next-Generation Battery and Fuel Cell Digital Twins of Real World's Clean Energy Systems with Integrated Utilization of Super-simulation and AI