Capabilities of NSCL - FRIB

1. Capabilities of NSCL - FRIB F. Pellemoine PASI Workshop - April 3-5, 2013

2. Potential or Available Target Areas • Swift Heavy Ion beams at NSCL • Unique material irradiation capability now at NSCL • 48Ca, 86Kr, 124Xe @ 140 MeV/A Up to 5 1011 ion/cm².s • 238U @ 80 MeV/A up to 1.25 109 ion/cm².s • 2 possibilities: • Parasitic • Dedicated irradiation area • For the future • Low energy electron gun with a minimum power of 30kW F. Pellemoine, PASI Workshop April 3-5, 2013

3. Unique Facilities and Tools in Place • Swift Heavy Ion beams at NSCL • Unique material irradiation capability now at NSCL • 48Ca, 86Kr, 124Xe • @ 140 MeV/A • Up to 5 1011 ion/cm².s • 238U • @ 80 MeV/A • Up to 1.25 109 ion/cm².s • 2 possibilities: • Parasitic • Dedicated irradiation area F. Pellemoine, PASI Workshop April 3-5, 2013

4. Facility for Rare Isotope Beams Rare isotope production with primary beams up to 400 kW, 200 MeV/u uranium Challenge: detectors for high beam rates Challenges: High power density, radiation damage F. Pellemoine, PASI Workshop April 3-5, 2013

5. MatX - Strategic Partnership “FRIB-Materials under Extreme Conditions” • Statement of Purpose Leverage unique MSU expertise and capabilities to address extreme materials problems of critical local and national importance • Develop and study key materials under extreme radiation, stress, temperature conditions • Develop a broad MSU team to leverage NSCL (and future FRIB) heavy ion beams and MSU’s expertise in material science and engineering • Translate characterization methods and promising materials to applications • Establish international scientific leadership, industrial connections and pursue intellectual property possibilities • Focus on graphite, diamond and Ti alloys as representative extreme materials • Important for diverse applications (aerospace, nuclear, accelerators) • Important for NSCL and critical for FRIB mission F. Pellemoine, PASI Workshop April 3-5, 2013

6. MatX - Strategic Partnership “FRIB-Materials under Extreme Conditions” SPG funded by MSU Foundation, 2012 • Physics and Astronomy • P. Duxbury, C.-Y. Ruan • Electrical and Computer Engineering • T. Grotjohn • Chemical Engineering and Material Science • C. Boehlert • National Superconducting Cyclotron Laboratory • W. Mittig, A. Stolz • Facility for Rare Isotope Beams • G. Bollen, F. Pellemoine, R. Ronningen G. Bollen, RaDIATE Meeting March 20, 2013

7. Materials ScienceMatX - “FRIB-Materials under Extreme Conditions” • TEM and in-situ SEM fracture and fatigue testing and analysis at Department of Chemical Engineering and Material Science • C. Boehlert • Only a few worldwide • Boehlert has contact ORCBS to qualify his mechanical testing laboratory for performing experiments on activated samples G. Bollen, RaDIATE Meeting March 20, 2013

8. Materials ScienceMatX - “FRIB-Materials under Extreme Conditions” • Leading Ultrafast Laser Pump / Ultrafast Electron Diffraction Probe Lab at Department of Physics and Astronomy • C.-Y. Ruan • Condensed matter theory at Department of Physics and Astronomy • C.-Y. Ruan, P. Duxbury • Complex materials and understanding/simulation of atomistic/microscopic effects F. Pellemoine, PASI Workshop April 3-5, 2013

9. Remote Handling / hot cell • For FRIB, hot cell for highly activated material. In the target building we have foreseen rooms to work in controlled area to work on radioactive material. F. Pellemoine, PASI Workshop April 3-5, 2013

10. Design/Analysis/simulation • Codes • P. Duxbury • atomistic materials simulations codes (e.g. Molecular Dynamics) • R. Ronningen • nuclear transport codes (e.g. SRIM, PHITS, MARS15…) • Thermo-mechanical behavior of FRIB material • F. Pellemoine, M. Avilov • ANSYS F. Pellemoine, PASI Workshop April 3-5, 2013

11. Design/Analysis/simulation • We have NC (our workshop has practically only CNC machines) • UHV capabilities (clean rooms) F. Pellemoine, PASI Workshop April 3-5, 2013