Working/Functional Title
Computational Physicist
Position Summary
FRIB is a new premier facility for studying rare isotopes' properties to understand better nuclei physics, nuclear astrophysics, fundamental interactions, and societal applications. The FRIB includes the highest energy continuous wave superconducting heavy-ion linear accelerator (linac) and Advanced Rare Isotope Separator (ARIS). State-of-the-art computational tools utilizing high-performance computing are essential for accurately modeling and high-speed optimization to determine the best operational parameters for the linac and ARIS. Developing novel software packages to enhance ARIS performance is an excellent opportunity for computational and beam physicists.
Major Position Responsibilities
- Develop parallel tracking and optimization codes for isotope separation, and transport of rare isotope beams in 3D fields of multipole magnets, including misalignments [45%]
- Conceive and execute studies of primary and secondary beam dynamics using existing software.
- Development novel simulation codes supporting realistic particle tracking in 3D fields of fragment separator magnets and interaction of isotope beams with wedges and degraders by integrating available codes such as LISE++-core or ATIM
- Develop ARIS settings for efficient separation and purification of rare isotopes [35%]
- Complete other duties as assigned within the scope of the role [20%]
Knowledge, Skills, and Abilities
- Thorough knowledge of major programming languages (C++, Python)
- Thorough knowledge of software development practices and techniques for computational and data-intensive science problems
- Knowledge and skillful ability to perform parallel computing and utilize scientific application codes.
- Ability to conceive and execute studies of primary and secondary beam dynamics using existing software
- Skill and ability to gather, analyze, and present findings by communicating effectively (both orally and written)
- Ability to conduct interdisciplinary research combining physical sciences/engineering and computing; strong collaboration skills and ability to work in a team environment
- Ability to analyze and resolve technical problems in a timely manner
- Ability to effectively work in a team
Equal Employment Opportunity Statement
All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, citizenship, age, disability or protected veteran status.
Required Degree
Doctorate -Computational Physics or Computer Science
Minimum Requirements
- A Ph.D. in computational physics or computer science
- Minimum of two years of experience in related fields; or equivalent combination of education and experience
- Experience in parallel computing and scientific application codes
Desired Qualifications
Desired
- Prior experience in the development of computer programs with parallel computing capability
- Experience in GPU-based computing
- Familiarity with electrodynamics computer codes.
- Familiarity with accelerator physics, in particular, heavy-ion accelerators
- Familiarity with beam dynamics, in particular, higher-order beam optics
- Familiarity with fragment separator beam physics
- Familiarity with nuclear physics
- Physics of the interaction of ion beams with materials
Required Application Materials
CV, cover letter, and contact information for three references
Together-we-will Statement
The university is requiring all MSU students, faculty and staff to be vaccinated against COVID-19 with limited exceptions. Learn more at:
https://msu.edu/together-we-will/
Special Instructions
CV, cover letter, and contact information for three references
Review of Applications Begins On
10/24/2022
Website
www.frib.msu.edu
MSU Statement
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.