U.S. Radiation Dose Limits for Astronauts

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U.S. Radiation Dose Limits for Astronauts Link to Abstract Link to Menu Health Physics Society 56 th Annual Meeting, West Palm Beach, Florida In lieu of TAM-E.6, Tuesday, June 28, 2011 Daniel J. Strom, Ph.D., CHP Pacific Northwest National Laboratory Strom@PNNL.gov +1 509 375 2626

NCRP Reports on Space Radiation National Council on Radiation Protection and Measurements (NCRP). Guidance on Radiation Received in Space Activities. Report No. 98. 1989. Radiation Protection Guidance for Activities in Low Earth Orbit. NCRP Report No. 132. 2001. Fluence-Based and Microdosimetric Event-Based Methods for Radiation Protection in Space. NCRP Report No. 137. 2001. Information Needed to Make Radiation Protection Recommendations for Space Missions Beyond Low- Earth Orbit. NCRP Report No. 153. 2006. 2

Space Travel In LEO, one is within the earth s protective magnetosphere, which deflects most of the solar wind from our sun Space travel above LEO results in exposure to the solar wind, which consists mostly of protons 3

NCRP 132: Deterministic Effects Gy Eq = R R RBE w D T T, R T Gray-Equivalent Limits (Gy-Eq) BFO Eye Skin Career Stochastic 4.0 6.0 1 year 0.50 2.0 3.0 30 day 0.25 1.0 1.5 4

NCRP 132: Stochastic Effects 3% increase in cancer deaths E w D T T, R R T = w R Career Effective Dose Limits (Sv) Age at Exposure 25 35 45 55 Male 0.7 1.0 1.5 3.0 Female 0.4 0.6 0.9 1.7 5

Van Allen Belts - 1 Radiation belts regions of high-energy particles mainly protons and electrons held captive by the magnetic field of the Earth 2 main sources small but very intense inner belt ( the Van Allen Belt" discovered in 1958 by James Van Allen) is trapped within 6500 km of Earth's surface. It consists mainly a high-energy protons (10-50 MeV) and is a by-product of the cosmic radiation, a thin drizzle of very fast protons and nuclei which fill our galaxy http://imagine.gsfc.nasa.gov/docs/ask_astro/answers/970228a.html 6

Van Allen Belts - 2 There exist electrons and protons (and also oxygen atoms) given moderate energies (1-100 kev) by processes inside the domain of the Earth's magnetic field Some electrons produce the polar aurora ("northern lights") when they hit the upper atmosphere, but many get trapped, and among those, protons and positive particles have most of the energy 7

Van Allen Belts - 3 A typical satellite passing the radiation belts (elliptic orbit, 200 miles to 20000 miles) receives about 2500 rem/year, assuming 1 g/cm 2 of aluminum (about 1/8" thick plate) almost all of it while passing the inner belt. The way the particles move in the magnetic field prevents them from hitting the atmosphere, and even if they are scattered, the atmosphere absorbs them long before they get very far. 8

The South Atlantic Anomaly (SAA) the region where Earth's inner van Allen radiation belt makes its closest approach to the planet's surface for a given altitude, the radiation intensity is higher over this region than elsewhere produced by a "dip" in the Earth's magnetic field at that location 9

http://heasarc.gsfc.nasa.gov/docs/rosat/gallery/display/saa.html 10

MISR Shows South Atlantic Anomaly Multi-angle Imaging SpectroRadiometer (MISR) instrument aboard NASA's Terra spacecraft began making scientific measurements. The MISR cameras, designed to detect visible light, are also sensitive to energetic protons in Earth's upper atmosphere. With the cover closed, background levels of protons stand out. http://eosweb.larc.nasa.gov/hpdocs/misr/misr_html/darkmap.html 11

NAS-NRC 2008 Report Committee on the Evaluation of Radiation Shielding for Space Exploration, National Research Council. Managing Space Radiation Risk in the New Era of Space Exploration. Washington, DC:National Academy Press. http://www.nap.edu/catalog/12045.html 12

Historical Mission Doses 13

Space Radiation outside of the Earth s Magnetosphere Solar wind Solar Particle Events (SPEs) Galactic cosmic radiation (GCR) Mostly protons There is some high-z, high-e (HZE) radiation 14

Space Radiation Protection Problem (Wilson et al. 1997) 15

NASA Sharpening their pencil on RBEs Expressing everything probabilistically Changing "excess lifetime risk (ELR) 3% to "risk of exposure-induced death" (REID) 3% Adding 95% confidence intervals (CI) for uncertainty 16

NAS-NRC REID Calculation 3% REID Males Females Age E(cSv) Days E(cSv) Days 30 62 142 47 112 35 72 166 55 132 40 80 186 62 150 45 95 224 75 182 50 115 273 92 224 55 147 340 112 282 REID: Radiation-induced excess death csv: centisieverts 17

REID on a Mars Mission 18

Conclusions Risk depends on age and sex Limits based on age and sex conflict with Equal Employment Opportunity law not used here on earth 19

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