1955 University of Pennsylvania radiocarbon dates I. Science 121(3136): 149–151.Google Scholar

1955 Radiocarbon dates for KaraKamar, Afghanistan, University of Pennsylvania II. Science 122(3176): 921–922 (with Coon, C. S.).CrossRefGoogle ScholarPubMed

1956 ¹⁴C dating. Pennsylvania Archaeologist XXVI(1): 27–31.Google Scholar

1959 Radiocarbon dating in Arctic. American Antiquity 24(4): 365–374 (with F. g. Rainey).CrossRefGoogle Scholar

1960 Carbon-14 measurements of known age samples. Nature 188(4746): 185–187 (with R. Stuckenrath).CrossRefGoogle Scholar

1960 New radiocarbon dates and the Maya correlation problem. American Antiquity 26(2): 165–184 (with L. Satterthwaite).Google Scholar

1962 New instrument techniques in archaeology. Proceedings of the Symposium on Detection of Underground Objects, Materials and Properties, 19-20 March 1962. U.S. Army Engineer Research and Development Laboratories, Fort Belvoir, Virginia: 151-155 (with F. G. Rainey).Google Scholar

1965 Review of radiocarbon dates for samples from Tikal related to the Maya calendar correlation problem. American Antiquity 30(4): 421–427.Google Scholar

1965 Carbon-14 date for the Antikythera Shipwreck. Transactions of the American Philosophical Society, N. S. 55(3): 48 P.Google Scholar

1966 Dating of pottery by thermoluminescence. Nature 210: 245–247 (with M. C. Han).Google Scholar

1966 Archaeology and its new technology. Science 153(3743): 1481–1491 (with G. F. Rainey).Google Scholar

1967 Instrument surveys. The Search for Sybaris, 1960-65 (with F. g. Rainey and C. M. Lerici) Rome, Lerici Editori: 53–134.Google Scholar

1967 Problems of the radiocarbon calendar. Archaeometry 10: 3–11 (with H. N. Michael).Google Scholar

1968 Archaeological surveying utilizing a high sensitivity difference magnetometer. Geoexploration 6: 109–122 (with F. Morrison and D. P. O'Brien).Google Scholar

1970 Correction factors applied to Egyptian radiocarbon dates from the BC era. in Olsson, I. U., ed., Radiocarbon Variations and Absolute Chronology, Proceedings of the 12th Nobel Symposium. New York, John Wiley & Sons: 109-120 (with Michael, H. N.).Google Scholar

1971 Dating Techniques for the Archaeologist, edited by Michael, H. N. and Ralph, E. K. Cambridge, Massachusetts, M.I.T. Press.Google Scholar

1971 ¹⁴C dating. Chapter 1. in Michael, H. N. and Ralph, E. K., eds., Dating Techniques for the Archaeologist. Cambridge, Massachusetts, M.I.T. Press.Google Scholar

1972 A cyclic solution for the relationship between magnetic and atmospheric carbon-14 changes. Preprint. in Rafter, T. A. and Grant-Taylor, T., eds., Proceedings of the 8th International Conference on Radiocarbon Dating. Wellington, New Zealand, Royal Society of New Zealand: A76-A84.Google Scholar

1973 Radiocarbon dates and reality. MASCA Newsletter 9(1): 1–20 (with H. N. Michael and M. C. Han).Google Scholar

1974 Twenty-five years of radiocarbon dating: Retrospect and prospect. American Scientist 62(5): 553–560 (with H. N. Michael).Google Scholar

1978 The chronometric gap from Early Jomen in southern Hokkaido: A radiocarbon and thermoluminescence View. Asian Perspective XIX(1): 116–144 (with W. M. Hurley, M. C. Han and N. Yoshizaki).Google Scholar

1979 Composite computer plots of ¹⁴C dates for tree-ring dated bristlecone pine and sequoia. in Berger, R. and Suess, H. E., eds., Radiocarbon Dating. Proceedings of the 9th International ¹⁴C Conference. Berkeley/Los Angeles, University of California Press: 545-553 (with J. Klein).Google Scholar

1980 Radiocarbon dates from Akrotiri: Problems and a strategy. In Thera and the Aegean World, Vol. II. Papers and Proceedings of the Second International Scientific Congress, Santorini, Greece, August 1978 (with M. Biddle).Google Scholar