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Michigan State University

Michigan State University
Full-time
On-site
East Lansing, Michigan, United States

Position Summary


The Research Associate will conduct research within the Nuclear Theory Group, focusing on using microscopic transport models to extract the properties of dense nuclear matter.


Major Duties/Responsibilities



  • Conduct research on using the microscopic transport model SMASH with the aim of a robust extraction of dense nuclear matter properties.

  • Perform and interpret Bayesian analysis of the available heavy-ion collision data using the developed framework.

  • Disseminate results at conferences and workshops.

  • Performs other duties as required or assigned which are reasonably within the scope of the duties in this job classification.


Knowledge, Skills, and Abilities



  • Demonstrated familiarity with heavy-ion collision phenomenology (e.g., key observables and their dependencies, well-known modeling approaches, leading interpretations of experimental data).

  • Thorough knowledge of microscopic transport models.

  • Thorough knowledge of nuclear many-body theory (e.g., thermodynamics of dense relativistic nuclear matter, relativistic Boltzmann evolution, …)

  • Skillful ability in developing microscopic transport simulations of heavy-ion collisions at collision energies relevant to FRIB, STAR FXT, HADES, CBM, or equivalent programs.

  • Ability to perform Bayesian analyses.

  • Advanced ability in building, testing, and interpreting models and simulations.

  • Skilled and experienced using programming languages (C++, Python, …), high-performance computing, version management tools (Git), LaTeX, and typical office software for typesetting and presentation.

  • Ability to analyze and resolve technical problems in a timely manner.

  • Ability to effectively collaborate and work in a team environment.

  • Effective communication skills to communicate clearly and credibly, both verbally and in writing with all audiences.


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 -Nuclear Theory


Minimum Requirements



  • Ph.D. in nuclear theory or anticipate Ph.D. completion by Fall of 2024.

  • At least one year of experience in relevant fields of nuclear many-body theory (e.g., thermodynamics of dense relativistic nuclear matter, relativistic Boltzmann evolution, …)

  • At least one year of experience with developing microscopic transport simulations of heavy-ion collisions at collision energies relevant to FRIB, STAR FXT, HADES, CBM, or equivalent programs.


Desired Qualifications



  • Experience with performing Bayesian analyses.


Required Application Materials



  1. Cover letter highlighting interest in and experience related to the open position.

  2. CV, including a complete list of publications and presentations.

  3. Research statement (up to 2 pages) detailing the applicant's research outcomes so far (up to 1.5 pages) and research directions that the applicant finds especially interesting (up to 1 page)

  4. Personal statement on the candidate’s experience in and envisioned contributions to creating a welcoming, collaborative, and inclusive research environment (up to 1 page)

  5. Contact information for at least three references


Special Instructions



  1. Cover letter highlighting interest in and experience related to the open position.

  2. CV, including a complete list of publications and presentations.

  3. Contact information for at least three references


Review of Applications Begins On


09/30/2024


Website


https://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.