FRIB will be a new world-leading scientific accelerator facility for nuclear science. FRIB is based on a 400 kW, 200 MeV/u heavy ion linear accelerator and uses projectile fragmentation or fission and in-flight separation to provide a wide variety of high-quality beams of rare isotopes, opening exciting research perspectives in low-energy nuclear science.
The primary mission of FRIBs Radiation Transport Group is to use computational nuclear analysis expertise and practical applications experience to provide problem-solving tools, technical solutions to quantify effects of beam interaction with matter and to support radiation safety. The group conducts modeling, analysis, and simulation of radiation transport, radionuclide determinination of inventories and transport behavior, radiological source term characterizations, and contributes to active and passive radiation mitigation and monitoring architectures.
The primary function of this position is to perform work to quantify the effects of radiation in addressing challenging problems that arise from high-energy heavy ion beams interacting with matter. The prediction of prompt and induced radiation effects is a primary focus. The projects typically require the application of nuclear analysis codes, such as radiation transport and activation and depletion codes. In addition to using modeling and simulation for prediction, design, and evaluation, using modeling and simulation can also be used in projects as part of the process of analyzing measurement data taken at the facility during operation. Some projects may also require adding new capabilities to existing modeling and simulation software used at FRIB. The candidate will be expected to work in a team environment and fully document research in journal articles, conference papers, and technical reports.
Doctorate -Physics, Nuclear Engineering or related
The successful candidate must have a Ph.D. in physics, nuclear engineering, or related field and should have demonstrated expertise in modeling and simulation methods for nuclear engineering applications, radiation detector characterization, and data analysis. The candidate should have considerable programming experience with high-level languages on a Linux-based operating system. Additional capabilities, such as programming on parallel processors are a plus. The ideal candidate would have diverse experience in many application areas such as neutron and gamma ray detection, and radiation transport technologies. The ability to perform research and development in a collaborative environment is required, including excellent oral and written communication skills. As well as the ability to work with export controlled items.
Prior experience with a radiation transport code like MCNP, Phits, or Mars, is desirable but not required.
Required Application Materials
CV, contact information for three references and cover letter
Review of Applications Begins On
Michigan State University has been advancing the common good with uncommon will for more than 160 years. One of the top research universities in the world, MSU pushes the boundaries of discovery and forges enduring partnerships to solve the most pressing global challenges while providing life-changing opportunities to a diverse and inclusive academic community through more than 200 programs of study in 17 degree-granting colleges.
Internal Number: 632978
About Michigan State University
Spartans work every day to advance the common good in uncommon ways.Together, we tackle some of the world?s toughest problems to find solutions that make life better?from alternative energy to better food safety to breakthrough medical and environmental applications achieved through rare isotope research.We teach. We explore and we discover. We collaborate and lead. We innovate, inspire, and empower. We achieve our potential and create circumstances that help our students and others achieve theirs.We're good at it, and we've been at it for more than 150 years.The nation?s pioneer land-grant university, MSU began as a bold experiment that democratized higher education and helped bring science and innovation into everyday life. The revolutionary concept became a model for the nation.Today, MSU is one of the top research universities in the world?on one of the biggest, greenest campuses in the nation. Home to nationally ranked and recognized academic, residential college, and service-learning programs, we?re a diverse community of dedicated students and scholars, athletes and artists, scientists and leaders.In ways both practical and profound, we work to create a stronger, more sustainable, and more hopeful future for all.