A half-day event, this introduced more than 50 high school physics students in LCC’s Early College to the field of nuclear astrophysics. It included hands-on lessons regarding isotopes, nuclear reactions, and neutron capture. Graduate students gave brief explanations of their research and highlighted their own paths that led to JINA-CEE.
A week long program at one of two world leading nuclear physics laboratories: Nuclear Science Laboratory located on the campus of the University of Notre Dame and the National Superconducting Cyclotron Laboratory located on the campus of Michigan State University. Learn nuclear astrophysics through lectures from faculty, and modern physics experiments.
Recent developments in theory, simulations and observations have begun to shed new light on the origin of the heavy elements in the universe, especially those made by rapid neutron capture, the r-process. The workshop aims to bring together nuclear theorists, experimentalists, astrophysicists, and astronomers to discuss these advances and foster collaborations. A coordinated effort is critical to solving the grand challenge problem of pinning down the site(s) and understanding the possible diversity in the r-process.
Middle and high school physical science teachers from the US and Canada participate in a week-long professional development program to learn techniques for teaching nuclear astrophysics in the classroom. Activities are similar to the student week, but also include lesson plans and materials.
Nuclei in the Cosmos is the foremost bi-annual conference of nuclear physicists, astrophysicists, cosmochemists, and others to survey the recent achievements in Nuclear Astrophysics.
As an interdisciplinary meeting it promotes mutual understanding and collaboration over fields fundamental to solve a range of open questions, from the origin of the elements to stellar evolution.
Inherent part of the conference is a school devoted to students and young scientists where prominent scientists introduce the field of nuclear astrophysics to the participants.
This program invites MSU alumni to bring their grandchildren for three days of classes on campus. Participants used JINA-CEE’s “marble nuclei” model to learn about isotopes and nuclear reactions before touring the National Superconducting Cyclotron laboratory.
Astronomy is primarily an observational science detecting photons generated by atomic, molecular, chemical, and condensed matter processes. Our understanding of the universe also relies on knowledge of the evolution of matter (nuclear and particle physics) and of the dynamical processes shaping it (plasma physics). Planetary science, involving in-situ measurements of solar system bodies, requires knowledge from physics, chemistry, and geology.
The aim is to bring together all those interested in black holes and neutron stars from Michigan State University, the University of Michigan, Wayne State University, and other nearby universities. This regular local meeting fosters collaboration between these nearby universities.
Nuclear Astrophysics is an important field of research where we study chemical and physical aspects of the production of chemical elements in the stars. This event aims to discuss the latest advances in this area. It is also intended to discuss nucleosynthesis in the Big Bang era and the role of neutrinos in the synthesis.