References
- C. S. WARREN, J. C. LILL, R. G. RICHMOND, and W. G. DAVIS, “Radiation Dosimetry on the Gemini and Apollo Missions,” J. Spacecraft, 5, 2, 207 (1968).
- H. J. SCHAEFER, “Apollo Mission Experience,” Proc. Natl. Symp. Natural and Manmade Radiation in Space, NASA TM X-2440, p. 215, National Aeronautics and Space Administration (1972).
- Space Science Board, Radiation Protection Guides and Constraints for Space-Mission and Vehicle-Design Studies Involving Nuclear Systems, National Academy of Sciences (1970); available from the Space Science Board.
- R. W. LANGLEY and M. P. BILLINGS, “A New Model for Estimating Space Proton Dose to Distributed Body Organs,” Nucl. Technol., 15, 68 (1972).
- R. G. ALSMILLER, Jr., T. W. ARMSTRONG, and W. A. COLEMAN, “The Absorbed Dose and Dose Equivalent from Neutrons in the Energy Range 60 to 3000 MeV and Protons in the Energy Range 400 to 3000 MeV,” Nucl. Sci. Eng., 42, 3, 367 (1970).
- G. S. KHANDELWAL and J. W. WILSON, “Proton Dosimeter Development for Distributed Body Organs,” Trans. Am. Nucl. Soc., 15, 2, 983 (1972).
- R. MADEY and T. E. STEPHENSON, “Quality Factors for Degraded Proton Spectra,” Proc. 2nd Symp. Protection Against Radiations in Space, NASA SP-71, p. 229, National Aeronautics and Space Administration (1964).
- M. P. BILLINGS and R. W. LANGLEY, “Techniques for Evaluation of Space Radiation Dose to Distributed Body Organs,” McDonnell Douglas Report No. WD1630; also, Trans. Am. Nucl. Soc., 14, 416 (1971).