White dwarfs are stellar embers that simply cool down for the rest of time, eventually freezing into a solid state. This predictable evolution makes them precise cosmic clocks; they have been used for decades to measure the ages of stellar populations. But data from the Gaia space observatory is now calling into question the accuracy of this age dating technique. The cooling process appears to be much more delayed by the onset of crystallization than predicted by current models. I will present my recent work on the physics of core crystallization.

Core-collapse supernovae (CCSNe) are some of the brightest, most energetic events in the universe. In order to model these phenomena accurately, we need to have a diverse range of physics such as neutrino transport and neutrino interactions, general-relativistic gravity, detailed equations of state (EoS) of dense matter, magnetohydrodynamic (MHD) and detailed progenitor models.

This EMMI+IReNA Workshop will bring together experts from the four areas hydrodynamic simulations, neutrino-flavor physics, r-process nucleosynthesis, and kilonova modeling. The goal is to identify the main shortcomings of current models and to discuss strategies for how to propagate modeling uncertainties into r-process abundances and kilonova predictions, thereby improving models in a way to maximize the scientific output of future multi-messenger observations of neutron star mergers.

The discovery of radioactive 26Al via the observation of the 1809-keV γ ray in 1982 is one of the most famous pieces of evidence of on-going nucleosynthesis in the cosmos. The 26Al is likely to be produced dominantly in massive stars and supernovae. Nevertheless, a number of additional sources such as classical novae and AGB stars may still contribute considerably to the production of 26Al. Thus, up to 29% of the total observed 26Al abundance is predicted to have a nova origin. 

Light elements were produced in the first few minutes of the Universe through a sequence of nuclear reactions known as Big Bang nucleosynthesis (BBN). Among the light elements produced during BBN, deuterium is an excellent indicator of cosmological parameters because its abundance is highly sensitive to the primordial baryon density.

Please join us at 7:00pm at the FRIB Laboratory (Room 1300 Auditorium) for this performance! This event is free and open to the public. A small reception will follow the performance, and FRIB scientists will be available to chat with the public afterwards.

Please join us at the DeBartolo Performing Arts Center at the University of Notre Dame for this performance. This is a free but ticketed event. Tickets will be available for pick-up at the Ticket Office one hour prior to the performance.

The school is connected to the International Conference on Nuclear Physics in Astrophysics X and aims at introducing important concepts related to nuclear astrophysics, including experimental and theoretical nuclear physics, astrophysics and astronomical observations.

PAN is sponsored by the Joint Institute for Nuclear Astrophysics - Center for the Evolution of the Elements (JINA-CEE) which is a Physics Frontier Center funded by the National Science Foundation.

PAN-CAKE is a free online masterclass for teachers scheduled on Saturday July 16th, 2022. Science teachers (from pre-service to veterans) in the US and Canada will learn about world-class scientific research in nuclear astrophysics at MSU’s Facility for Rare Isotope Beams. This is an opportunity to meet scientists and other educators, take a “virtual tour” of a leading rare isotope laboratory, collect tools and demos for your curriculum, and discover the future of research. 

Radioactive nuclei play a significant role in many current astrophysical pursuits, from the origin of the elements to the driving of emissions from supernovae ($^5$$^6$Ni) and kilonovae (r-process radioactivity). Radioactive nuclei are crucial for direct studies of galactic enrichment ($^7$Be, $^2$$^6$Al, $^4$$^4$Ti, $^6$$^0$Fe, $^9$$^9$Tc, $^2$$^4$$^4$Pu) and stellar explosions ($^5$$^6$Ni, $^4$$^4$Ti). Stars and their explosions, galaxies and their evolving interstellar medium, and the origin of the solar system are among the targeted astrophysical objects.

This summer school is intended to teach the application of stellar modelling using Modules for Experiments in Stellar Astrophysics (MESA) to those in the nuclear-astrophysics community and other interested researchers. Stellar modelling applications are becoming increasingly robust, and the availability of models for various stellar environments of interest to the nuclear-astrophysics community is constantly increasing.

This summer school is intended to teach the application of stellar modelling using Modules for Experiments in Stellar Astrophysics (MESA) to those in the nuclear-astrophysics community and other interested researchers. Stellar modelling applications are becoming increasingly robust, and the availability of models for various stellar environments of interest to the nuclear-astrophysics community is constantly increasing.

We are excited to announce that the 2022 JINA-CEE Frontiers in Nuclear Astrophysics Meeting will take place on May 25-27, 2022 in South Bend, Indiana. Frontiers 2022 will also bring the IReNA community together in person for the first time.

Title: The CNO cycle and the CNO Neutrinos in our Sun

Title: Explosive nucleosynthesis with stored, radioactive ions

The Focus Area 1 (FA1) of the International Research Network for Nuclear Astrophysics (IReNA) is concerned with the determination of nuclear reaction rates of critical astrophysical importance in the laboratory using a broad range of experimental approaches, including heavy ion storage rings, deep underground laboratories, intense photon beams, neutron beams, and recoil separators at stable and rare isotope accelerator facilities.

Title: Probing the Dense-Matter Equation of State with Neutron Star Mergers

2pm Eastern Time / 7 pm CET. Host: Matt Caplan, Illinois State University

Title: Strangeness in the laboratory and stars

We announce that the 17th Russbach School on Nuclear Astrophysics will again take place at the village of Rußbach am Paß Gschütt, southeast of Salzburg, Austria. The school dates will be from March 13 (arrival and registration) to March 19 (departure) 2022.