Dr. David Elmore

Courtesy Appointment, Professor of Physics

E-mail: elmore@purdue.edu

Associated Website(s): http://www.physics.purdue.edu/people/faculty/elmore.shtml

Education

B.S. Physics, Case Institute of Technology (Cleveland, OH), 1968.

Ph.D. Physics, University of Rochester (Rochester, NY), 1974.

Research Interests

My group’s research interest re centered on applications of accelerator mass spectrometry (AMS). We operate a tandem electrostatic accelerator in the department of Physics to measure very low concentrations of the natural and man-made radionuclides 10Be, 14C, 26Al, 36Cl, 41Ca and 129I. Chemical preparation of samples is carried out in the Department of Chemistry. Accelerator mass spectrometry was developed, starting in the late 1970’s, for directly counting these radionuclides, improving the sensitivity by many orders of magnitude over conventional decay counting techniques. The Purdue Rare Isotope Measurement Laboratory (PRIME Lab) is one of only a few facilities in the nation capable of measuring these nuclides. We continue to improve the capacity and detection limits and routinely measure these nuclides in a wide range of sample types for both Purdue-based and external research projects. Designed and built a new cesium sputter ion source. Other projects: an upgrade to the stripper system at the accelerator terminal, a new beam line that will include a gas filled magnet for better isobar separation, and a faster data analysis system. Our group continues to apply AMS to problems in biomedicine.

Teaching Interests

Lectured introductory calculus-based mechanics and calculus-based electricity and magnetism. Introduced the McDermott tutorials to the mechanics course (1800 students per year). Presently lecturing algebra-based mechanics to technology students using peer instruction with response pads and just-in-time reading quizzes.

Professional Experience

  • Professor, Purdue University, 1993-present.

  • Associate Professor, Purdue University, 1989-1993.

  • Senior Research Associate, University of Rochester, 1988-1989.

  • Physicist, CER/BEM, Argonne National Laboratory, 1986-1988.

  • Senior Research Associate, University of Rochester, 1980-1986.

  • Research Associate, University of Rochester, 1974-1980.

Selected Publications <More>

  • Cosmogenic nuclide evidence for minimal erosion across two subglacial sliding boundaries of the late glacial Fennoscandian ice sheet. Harbor J, Stroeven AP, Fabel D, Clarhall A, Kleman J, Li YK, Elmore D, Fink D., Geomorphology 75, (2006) 90-99.

  • Determination of cosmogenic Cl-36 in rocks by isotope dilution: innovations, validation and error propagation. Desilets, D., et al., Chemical Geology, 2006. 233(3-4): p. 185-195.

  • Ice sheet erosion patterns in valley systems in northern Sweeden investigated using cosmogenic nuclides. YK. Li, J. Harbor, AP. Stroeven, D. Fabel, J. Kleman, D. Fink, M. Caffee, D. Elmore, EARTH SURFACE PROCESSES AND LANDFORMS 30 (8): (2005) 1039-1049.

  • Incorporation of I-129 from nuclear sources into lacustrine sedimentry organic matter: a case study in the Great Lakes. U. Rao, Y. Muramatsu, M. Kruge, D. Elmore, GEOCHIMICA ET COSMOCHIMICA ACTA 69 (10): (2005) A-713-A713, Suppl. S.

  • Near-conservative behavior of I-129 in the Orange County aquifer system, California. KA. Schwehr, PH. Santschi, JE. Moran, D. Elmore, APPLIED GEOCHEMISTRY 20 (8): 2005 1461-1472.

  • The dissolved organic iodine species of the isotopic ratio of I-129/I-127: A novel tool for tracing terrestrial organic carbon in the estuarine surface waters of Galveston Bay,Texas. Schwehr KA, Santschi PH, Elmore D Limnology and Oceanography-Methods 3, (2005)   326-337.