United States. Air Force

Interviewed by
Henrik Hargitai
Interview date
Abstract

Interview with Mark Rosiek, a planetary photogrammetrist at the USGS Astrogeology Science Center. Rosiek discusses his work for the Air Force, prior to joining USGS, where he worked in image processing and satellite imagery. He then describes his work on mapping the landing site for the Huygens satellite on Titan, as well as his work on Martian contour maps using Viking images. Rosiek recalls his lunar mapping projects, specifically mapping the polar regions of the Moon. He describes differences between working with data from the Clementine mission versus the Lunar Reconnaissance Orbiter. Rosiek reflects on the technological advances that have changed planetary mapping work over the years. He discusses his education at SUNY College of Forestry where he was introduced to photogrammetry and remote sensing. Rosiek also talks about collaborating with geologists in his work, and he explains the changing role of USGS in the field of planetary mapping. The interview concludes with Rosiek sharing the importance of planetary mapping work and the need to continue updating maps as new technology emerges. 

Interviewed by
David Zierler
Interview date
Location
Video conference
Abstract

Interview with Milton Dean Slaughter, Affiliate Professor of Physics at Florida International University. Slaughter recounts his childhood in New Orleans, his involvement in the civil rights movement, and he describes his undergraduate work in physics at Louisiana State University and his graduate work in theoretical physics at the University of New Orleans, where his dissertation focused on electron-laser pulse scattering. Slaughter discusses his long tenure in the department of physics at UNO, and prior to that his research in theoretical physics at Los Alamos. At the end of the interview, he discusses his long-term interest in gravity.

Interviewed by
David Zierler
Interview date
Location
Video conference
Abstract

Interview with James Brau, Philip H. Knight Professor of Natural Sciences at the University of Oregon. Brau describes his career-long interest in pursuing physics beyond the Standard Model and his consequent campaign to realize the ILC. He recounts his childhood in Washington, and he describes his early interests in science before enrolling in the U.S. Air Force Academy. Brau explains the opportunities that led him to MIT for graduate school before serving at Kirtland Air Force Base to work in the weapons lab before returning to MIT to complete his PhD where Richard Yamamoto supervised his research on high energy interactions. He describes his postdoctoral appointment at SLAC in the bubble chamber group before taking a faculty position at the University of Tennessee. Brau describes his involvement with SLD at SLAC, and he narrates his involvement with SSC planning while he was transferring to Oregon where he established the Center for High Energy Physics and where he became involved in the LIGO collaboration. He explains the origins of the ILC idea and how his research group joined ATLAS at the LHC. At the end of the interview, Brau reflects on the importance of encouraging public support for fundamental science.

Interviewed by
David Zierler
Interview date
Location
Video conference
Abstract

In this interview, Lee Pondrom, Professor of Physics Emeritus at the University of Wisconsin, Madison, recounts his childhood in Dallas, San Antonio and Houston and describes his early interest in science. He explains his motivations to attend Southern Methodist University, where he pursued a degree in physics. Pondrom discusses his graduate work at the University of Chicago where the long-range influence of the Manhattan Project remained strong, even in the early and mid-1950s. He describes his summer research work at Los Alamos, and his thesis research on cyclotrons and pi mesons under the direction of Albert Crewe and Uli Kruse. Pondrom conveys the feeling of excitement at the discovery of parity violation while he was a graduate student, his postdoctoral work on the Nevis cyclotron while at Columbia, and he describes his Air Force service after he defended his dissertation. He describes the opportunities leading to his tenure at the University of Wisconsin and a research agenda that included long-term projects at the Chicago cyclotron, and at Fermilab and at Argonne. Pondrom discusses his contributions to CP violation, hyperon decay and how computers have been useful over the course of the career. He describes the origins of Fermilab and his experiences at Madison during the student unrest during the late 1960s, where bombers targeted science buildings. Pondrom discusses the significance of the E8 experiment as an extension of the Garwin-Lederman experiment and the origins of the Tevatron project. He explains the ups and downs of U.S. high energy physics during the SSC years and he surmises what would be known now in particle physics had the SSC been completed. At the end of the interview, Pondrom describes his extensive collaborations in Russia and his study of Soviet-era physics, including his work on Stalin’s nuclear diplomacy.

Interviewed by
David Zierler
Interview date
Location
video conference
Abstract

Brian Beard, Deputy Director of the Division of Biomedical Physics at the FDA, is interviewed by David Zierler. Beard recounts his childhood in Pennsylvania Dutch country and describes his early interest in robots and science fiction. He discusses his education at the Air Force Academy, where he double majored in electrical engineering and physics, and his service as a pilot in the Vietnam War. Beard describes his work as an F4 flight instructor at MacDill AFB, as a senior electronics engineer at Eglin AFB, and as technical director at Fort Walton Beach. He discusses his research in millimeter wave radars and activity monitor microprocessors, and his work for the White Sands Missile Range. Beard explains his decision to leave the Air Force and pursue a Ph.D. at Vanderbilt in biomedical engineering. He describes his work in signal processing and electrical aspects of biomedical devices, and he explains the findings in his dissertation measuring post-operative left ventricular function using non-imaging radionuclide techniques. Beard discusses the events leading to his job offer at the FDA, where he started as a biomedical engineer in the Electro-physics Branch. He describes his many responsibilities at the FDA over the past decades, including his research on catheters and mechanical scanning systems, and he explains the sequencing process that gets medical devices approved for use. Beard explains the interagency approval mechanism on issues including regulating wireless coexistence, and cell phone safety. At the end of the interview, Beard describes the unique public health impact that can be attained in a career at the FDA.

Interviewed by
Carballeira, Andrew
Interview date
Location
Hopkinton, MA
Abstract

In this interview, Andrew Carballeira interviews architectural acoustician William Cavanaugh. Cavanaugh discusses his family and childhood, his education at MIT, and experiences in the US Army. He describes his subsequent work as a consultant for Bolt, Beranek, and Newman designing acoustics facilities at Wright-Patterson Air Force Base and the Air Force Academy. Cavanaugh then describes his work as an independent consultant after leaving BBN, and his role in the formation of the National Council of Acoustical Consultants. Finally, Cavanaugh discusses his writing on acoustics and architecture, particularly Architectural Acoustics: Principles and Practice, which he co-edited with Gregory Tocci and Joseph Wilkes.

Interviewed by
Samantha M. Thompson
Interview date
Location
Neugebauer's home, Tucson, Arizona
Abstract

Marcia Neugebauer discusses her childhood in New York City; mother's education at Vassar; her education at Cornell University in physics and philosophy; applying for jobs and graduate school; Master's at the University of Illinois, working with David Lazarus measuring diffusion in metals; marriage to Gerry Neugebuer; interviewing with the Jet Propulsion Laboratory (JPL); hired alongside Conway Snyder to study possible use of nuclear reactors for rocket propulsion; competition between the Army and Air Force; learning to work with instrumentation; Space Science Section of JPL; Ray Newburn; solar wind; Russian probes to study solar wind; Mariner 2 mission and subsequent media; Solar Wind Conference; Christopher Russell; Apollo Lunar Surface Experiments Package (ASLEP); International Sun-Earth Explorer (ISEE); Ulysses; leadership role with the American Geophysical Union (AGU); women in sciences and at JPL.

Interviewed by
Lillian Hoddeson
Interview date
Location
Montecito, California
Abstract

Family background and early education; University of Oklahoma; graduate work and electrical engineering at California Institute of Technology. Bell Laboratories, 1936-1946; colloquium and other social structures; early solid state physics work; Fletcher’s group with Foster Nix and William Shockley; war years, work on radar bomb sights; postwar years. Move to Hughes Aircraft Company, 1946-1953; formation and accomplishments of Thompson-Ramo-Wooldridge after 1953; current interests. Also prominently mentioned are: Joseph A. Becker, R. S. Bowen, Walter Houser Brattain, Oliver E. Buckley, Joseph Ashby Burton, Karl Kelchner Darrow, Clinton Joseph Davisson, Paul Sophus Epstein, Conyers Herring, C. N. Hickman, Howard Hughes, J. B. Johnson, Edward Karrouse, Mervin J. Kelly, G. A. Kelsall, J. W. McRae, Robert Andrews Millikan, J. Robert Oppenheimer, Gerald Leondus Pearson, Don Quarles, Simon Ramo, Rhine, Duane Roller, Hellvar Skaade, William Ralph Smythe, Leopold Stokowski, Richard Chase Tolman, Charles Hard Townes, Howell J. Williams, Jewel Wurtzbaugh, Fritz Zwicky; American Physical Society, Massachusetts Institute of Technology, United States Air Force, and Western Electric Company.

Interviewed by
Henry Bass
Interview date
Location
University of Mississippi, Oxford, Mississippi
Abstract

In this interview F. Douglas Shields discusses topics such as: Acoustical Society of America (ASA); physical acoustics; absorption of gases; family background and education; going to Tennessee Tech for school; joining the Air Force; Vanderbilt University for graduate school; Francis Slack; teaching at Middle Tennessee State University; Robert Lagemann; Oak Ridge National Laboratory; isotopes; University of Mississippi.

Interviewed by
Charles Weiner
Interview date
Location
Massachusetts Institute of Technology, Cambridge, Massachusetts
Abstract

Family background; grows up in California; early interest in electronics. Undergraduate and graduate studies at Caltech. Strong interest in history of science as undergraduate. Ph.D. in physics, 1932. University of California at Berkeley, 1932-1934. MIT from 1934; founder of the Radioactivity Center. Starts first course designated "nuclear physics," January 1935. Strong interest in study of radium poisoning; radium tolerance in humans, cancer research. World War II work, postwar work; establishment of Laboratory for Nuclear Science and Engineering. Markle Foundation supplies funds for the Radioactivity Center's Cyclotron; the 1940 Conference on Applied Nuclear Physics (sponsored by the American Institute of Physics and MIT); World War II work at the Radioactivity Center at MIT; radium dial paint studies; radium and plutonium safety regulations (Glenn Seaborg); work relations with the Manhattan Project; the MAMI (marked mine) project reveals indication of German plutonium project. Also prominently mentioned are: Carl David Anderson, Joe Aub, Joe Boyce, Vannevar Bush, Evan Byers, John Cockcroft, Robert Colenko, Arthur Holly Compton, Karl Taylor Compton, Enrico Fermi, Horace Ford, Ralph Howard Fowler, George Gamow, Newell Gingrich, Clark Goodman, Leslie Richard Groves, George Harrison, Hobart, Elmer Hutchisson, Ray Keating, Arthur Kip, Pinkie Klein, Rudolf Ladenburg, Charles Christian Lauritsen, Thomas Lauritsen, Ernest Orlando Lawrence, Gilbert Newton Lewis, Willard Frank Libby, Milton Stanley Livingston, Leonard Benedict Loeb, Sam Lynd, Edwin Mattison McMillan, Robert Andrews Millikan, J. Robert Oppenheimer, Elmer Robinson, Ernest Rutherford, John Clarke Slater, Sorensen, Robert Jamison Van de Graaff, Ernest Thomas Sinton Walton, Martin Wittenberg, Jerrold Reinach Zacharias; American Institute of Physics; American Cancer Society, Bausch and Lomb Co., National Research Council, Radiation Standards Committee, United States Federal Cancer Commission, United States Food and Drug Administration, United States National Bureau of Standards, United States Navy, University of Rochester, University of Utah Salt Lake City Project, Wesleyan University, World War I, and World War II.