Workshop on applied nuclear data activities wASHINGTON DC Greg moffitt phd January 2224 2019 Uwmcf mULTI PARTICLE VARIABLE ENERGY Multiuse facility Fast neutron therapy 505 MeV protons incident on a beryllium target ID: 1012788
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1. University of Washington MEDICAL cyclotron FACILITY (UWMCF)Workshop on applied nuclear data activitieswASHINGTON, D.C.Greg moffitt, phd January 22-24, 2019
2. Uwmcf – mULTI-PARTICLE, VARIABLE ENERGYMulti-use facilityFast neutron therapy (50.5 MeV protons incident on a beryllium target)Proton research (medical applications, radiation effects testing)Isotope productionAvailable accelerated particles with UWMCF Protons (1H+): 28.0 – 50.5 MeV (~70 μA extracted)Protons (1H2+): 7.0 – 12.0 MeV (~30 μA extracted)Deuterons (2H+): 14.0 – 24.0 MeV (~30-40 μA extracted)Helium-3 (3He++): 21.0 – 35.5 MeV (being developed)Alphas (4He++): 27.0 – 47.3 MeV (~40-60 μA extracted)UWMCF isotope program is a recently stewarded facility of the USDOE-IP, part of the University Isotope Network (UIN)Helium-3 development currently a high priority for DOEWANDA, Washington, D.C., 20192
3. ISOTOPE PRODUCTION AT uwmcfPast: 11C, 13N, 15O, 18FCurrent: 57Ni, 72Se/72As, 99mTc, 117mSn, 186Re, 190Ir, 205Bi, 211At, 236NpFuture: 77Br, 167Tm, 226ThMultiple users in medical, industrial, and government applicationsWANDA, Washington, D.C., 20193
4. BeamLine layout4WANDA, Washington, D.C., 2019
5. ISOTOPE Development and PRODUCTIONPET Target Station Replacedwith Experimental Station186Re, 99mTc, 236Np211At, 117mSn2nd Treatment Room Convertedto a Proton Research RoomWANDA, Washington, D.C., 20195
6. ISOTOPE Development and PRODUCTION FutureWANDA, Washington, D.C., 20196
7. Production station7WANDA, Washington, D.C., 2019
8. Experimental station8WANDA, Washington, D.C., 2019
9. Fast neutron therapy950.5 MeV protons incident on a beryllium targetWANDA, Washington, D.C., 2019
10. Isocentric gantry10WANDA, Washington, D.C., 2019
11. MULTILEAF COLLIMATOR11WANDA, Washington, D.C., 2019
12. Summary12UWMCF accelerates the following particles:1H+, 1H2+, 2H+, 3He++, 4He++On-site expertise in target design and isotope productionAccess to machine shop for custom target developmentTarget modeling with MCNP6 and ANSYSHigh purity germanium detector for target analysisRadiochemistry group performs target processing Goal of developing accurate and efficient methods for production cross section measurements