Download presentation
Presentation is loading. Please wait.
Published byFrederica Green Modified over 8 years ago
1
1 RHIC NSRL LINAC Booster AGS Tandems STAR 6:00 o’clock PHENIX 8:00 o’clock 10:00 o’clock Polarized Jet Target 12:00 o’clock RF 4:00 o’clock (AnDY, CeC) 2:00 o’clock RHIC – a High Luminosity (Polarized) Hadron Collider EBIS BLIP Irradiation Facilities at BNL David Lissauer
2
2 Irradiation facilities at BNL Solid State Gamma Irradiation Facility NASA Space Radiation Laboratory (NSRL) Commercial user facility of the Tandem Van de Graaff Brookhaven Linac Isotope Producer (BLIP)
3
3 Solid State Gamma Irradiation Facility Brookhaven National Laboratory Source Type: 60 Co Source with 1.17 and 1.33 MeV photons Source Activity: 1150 Curies Dose rates:3 Gray/hr - 800 Gray/hr User access: Users need escort but Irradiations can proceed unattended (24/7) Geometry:Collimated beam in Walk-in room (see picture) Sample size: is restricted by line of sight up to 12 inches from source center line. Closer in there is a 10” square opening from 12” to 3” (see picture). Irradiation Chamber Source Aperture
4
4 Solid State Gamma Irradiation Facility Brookhaven National Laboratory For Facility Use Contact Cost Please provide a brief summary of materials to be irradiated, required dose rates and total dose, requested irradiation dates and any special requirements to the contact above For irradiations of >3 days please provide a one page detailed summary to the contact above. Additional information may be found at: http://www.inst.bnl.gov/facilities/ssif/ James Kierstead Instrumentation Division Email: Kierstead@bnl.govKierstead@bnl.gov Phone: (631) 344-3170 Commercial Users: $100/hr ($800/day ) Others:Contact above
5
5 5 NASA Space Radiation Lab (NSRL) at DOE’s Brookhaven National Laboratory Medical Dept. Biology Dept.
6
6 For more information please visit the NSRL website; http://www.bnl.gov/medical/NASA/CAD/NSRL_Beam_Information_Gui de.asp NSRL construction was paid by NASA and built by BNL under DOE. NASA pays for the operation and upgrades of NSRL. Non-NASA programs use the facility on and hourly cost basis. ( as long as they do not interfere with the NASA program). Some outside users are; DOE High Energy Physics, National Reconnaissance Office, Stony Brook University Radiation Oncology, other NASA non–JSC. NASA operates a 1000 hour/year program of ~150 users in each of 3 sessions. NASA Space Radiation Lab - NSRL
7
7 Examples of Beam Ion Species, Energy and Intensity. Typical Momentum 100-1000/ Nucleon
8
8 e.g: Brag peak as “range” cm of poly =0.97 g/cm 3 C at 292.7 MeV/N H at 250 MeV
9
9 NSRL - Target Room
10
10 Tandem Van de Graaff - Facility Two 15 MV Tandems Full cost recovery use mainly for SEU studies More Information at: http://tvdg10.phy.bnl.gov/
11
11 Examples of Ion Species and Energy Typical Flux: 1-10 6 particles/cm 2 /sec
12
12 BNL LINAC Isotope Producer (BLIP) The LINAC supplies polarized protons to the Booster for nuclear physics and NASA space radiobiology program. Excess high intensity proton pulses (~92%) are diverted to BLIP. Energy to BLIP is variable from 66-202 MeV in ~23 MeV steps at integrated intensity up to 120µA. Operations for 6-8 months per year are typical. Dedicated, at full cost recovery, or parasitic material irradiation possible
13
13 Layout of BLIP Beam Line Detail information at: http://www.bnl.gov/cad/Isotope_Distribution/Isodistoff.asp
14
14 Radioisotope Program Components Isotope Production and Distribution at BLIP Distribution for sale; process & target development to improve quality & yield. Sr-82/Rb-82 for human heart scans with PET Ge-68 for calibration of PET devices, and for production of Ge-68/Ga-68 generators for PET imaging of cancer and other diseases Zn-65 tracer for metabolic or environmental studies Radioisotope R&D Cu-67, for cancer therapy applications Y-86 for PET imaging as a surrogate for cancer therapy with Y-90 Ac-225 for cancer therapy applications Training Support (space, equipment, faculty) for DOE funded Nuclear Chemistry Summer School, an undergraduate course in nuclear and radiochemistry Radiation damage studies Target and magnet materials for future high power accelerators, collaboration with BNL Physics & ES&T Departments Materials for Facility Rare Isotope Beams (FRIB), collaboration with ES&T Department
15
15 Radiation damage studies The primary mission of BLIP is medical radioisotope production, target arrays for radiation damage effort must be designed so that they can be irradiated simultaneously and compatibly with isotope targets. A Solution is to increase beam energy and place targets in front of isotope targets, with energy loss calculated to match desired entrance energy and beam spot for isotope production. Irradiation in a mixed fast neutron flux is done using the secondary neutrons from proton interaction in isotope targets by placing targets downstream of the isotope target array. FRIB components were irradiated to a flux at doses of 0.2MGy, 2MGy, and 20MGy.
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.