Interview with Renata Wentzcovitch, professor of Applied Physics and Applied Mathematics and Earth and Environmental Sciences at Columbia University. Wentzcovitch recounts her childhood in Brazil, and she describes how her grandfather sparked her interest in science early on. She describes her education at the University of São Paulo’s Institute of Physics where she developed an interest in density functional theory. Wentzcovitch discusses her interest in pursuing a graduate degree in the United States, and her decision to attend UC Berkeley and study under the direction of Marvin Cohen. She describes her thesis research on pseudopotential plane-wave codes and super-hard materials such as boron nitride and diamonds. Wentzcovitch explains the impact of High Tc Superconductivity on both her career and the field generally, and she describes her postdoctoral research with joint appointments at Brookhaven and Stony Brook on evolving electronic wavefunctions via classical dynamics. She discusses her subsequent work with Volker Henie at Cambridge to study silicate perovskite, which in turn led to her first faculty appointment at the University of Minnesota. Wentzcovitch describes the importance of Minnesota’s Supercomputing Institute for her research, and she explains how her research focused more centrally on geophysics and the thermo-elasticity of minerals and their aggregates. She describes the founding of the Virtual Laboratory for Earth and Planetary Materials and explains her decision to join the faculty at Columbia and her involvement with VLab and the study of exchange-correlation functionals to address electronic interactions. At the end of the interview, Wentzcovitch discusses her current work on developing codes for thermodynamic computations and seismic tomography, and she conveys the value of pursuing international collaborations to fit her broad and diverse research agenda.
Interview with Robert Jennings, retired since 2018 from the FDA’s Center for Devices and Radiological Health, where he was a research physicist. He recounts his childhood in Southern California and the formative influence of Sputnik on his physics education. Jennings discusses his undergraduate experience at Occidental and his master’s work at UCLA, and he describes his postgraduate work at the NASA Ames Research Center where he worked on optical detectors. He explains his decision to pursue a PhD at Dartmouth where he studied under John Merrill and worked on Tonks-Dattner resonances. Jennings describes the circumstances leading to his postdoctoral research in Brazil at the Institute of Atomic Energy, where he worked on medical radiation in the Division of Solid-State Physics. He discusses his subsequent research with John Cameron at the University of Wisconsin’s Medical Physics section to develop spectroscopy systems. Jennings explains that the expertise he developed in radiation and modeling in Wisconsin served as his entrée to the FDA ,which excited him as the place where the most impactful research was happening at the time. He surveys the major projects he was involved with over his career, including human visual signal detection, quality assessment of medical devices, improving mammography diagnostics, tomosynthesis, and CT scanners. At the end of the interview, Jennings surveys the fundamental developments that have advanced over the course of his forty-plus year career at FDA, his major contributions in tissue simulation science, and why he believes AI will become increasingly central to advances in medical imaging.
Interview with Marcelle Soares-Santos, assistant professor of physics at the University of Michigan. Soares-Santos recounts her childhood in Brazil, her early interests in science, and her graduate work in physics at the University of São Paulo. She describes her graduate visit to Fermilab to study galaxy clusters as a way to map the history of the expanding universe, which formed the basis of her thesis research. Soares-Santos discusses her return to Fermilab as a postdoctoral researcher, where she joined the Dark Energy Survey, and she explains how DES is getting us closer to understanding what dark energy is. She describes Fermilab’s broad-scale transition into astrophysics, and she explains the opportunities that led to her faculty appointment first at Brandeis before moving to Michigan. Soares-Santos discusses her current work in gravitational waves, and she prognosticates on what the discovery of dark energy (or energies) will look like. She shares her perspective on recent efforts to improve diversity and inclusivity in STEM. At the end of the interview, Soares-Santos explains why observation is leading theory in the current work of astrophysics and cosmology and why she is optimistic for fundamental advances in the field.
Topics discussed include: Bruno Rossi, Gilberto Bernardini, Ettore Majorana, radioactivity, Antonio Lo Surdo, Antonio Garbasso, Lise Meitner, Ernest Rutherford, C. T. R. Wilson, John Cockcroft, P. M. S. Blackett, Gleb Wataghin, Gian Carlo Wick, Franco Rasetti, Enrico Persico, Dirac's theory, nuclear physics, Emilio Segre, cosmic rays, James Chadwick, Cambridge University, Shimizu, George Gamow, Frederic Joliot, Cavendish laboratory, P. L. Kapitsa, Hans Geiger, Maurice Goldhaber, Victor Weisskopf, David Frisch, Ehrenburg, Carl Anderson, Guglielmo Marconi, Louis de Broglie, P. A. M. Dirac, fellowship from National Council of Research, Arthur Holly Compton, Surgio de Benedetti, Giulio Racah, Sergei Vavilov, University at Sao Paolo, William Bragg, Cecil Powell, sigma star, and pi-meson decay.
Topics discussed include: Bruno Rossi, Gilberto Bernardini, Ettore Majorana, radioactivity, Antonio Lo Surdo, Antonio Garbasso, Lise Meitner, Ernest Rutherford, C. T. R. Wilson, John Cockcroft, P. M. S. Blackett, Gleb Wataghin, Gian Carlo Wick, Franco Rasetti, Enrico Persico, Dirac's theory, nuclear physics, Emilio Segre, cosmic rays, James Chadwick, Cambridge University, Shimizu, George Gamow, Frederic Joliot, Cavendish laboratory, P. L. Kapitsa, Hans Geiger, Maurice Goldhaber, Victor Weisskopf, David Frisch, Ehrenburg, Carl Anderson, Guglielmo Marconi, Louis de Broglie, P. A. M. Dirac, fellowship from National Council of Research, Arthur Holly Compton, Surgio de Benedetti, Giulio Racah, Sergei Vavilov, University at Sao Paolo, William Bragg, Cecil Powell, sigma star, and pi-meson decay.
Topics discussed include: Bruno Rossi, Gilberto Bernardini, Ettore Majorana, radioactivity, Antonio Lo Surdo, Antonio Garbasso, Lise Meitner, Ernest Rutherford, C. T. R. Wilson, John Cockcroft, P. M. S. Blackett, Gleb Wataghin, Gian Carlo Wick, Franco Rasetti, Enrico Persico, Dirac's theory, nuclear physics, Emilio Segre, cosmic rays, James Chadwick, Cambridge University, Shimizu, George Gamow, Frederic Joliot, Cavendish laboratory, P. L. Kapitsa, Hans Geiger, Maurice Goldhaber, Victor Weisskopf, David Frisch, Ehrenburg, Carl Anderson, Guglielmo Marconi, Louis de Broglie, P. A. M. Dirac, fellowship from National Council of Research, Arthur Holly Compton, Surgio de Benedetti, Giulio Racah, Sergei Vavilov, University at Sao Paolo, William Bragg, Cecil Powell, sigma star, and pi-meson decay.
Topics discussed include: Bruno Rossi, Gilberto Bernardini, Ettore Majorana, radioactivity, Antonio Lo Surdo, Antonio Garbasso, Lise Meitner, Ernest Rutherford, C. T. R. Wilson, John Cockcroft, P. M. S. Blackett, Gleb Wataghin, Gian Carlo Wick, Franco Rasetti, Enrico Persico, Dirac's theory, nuclear physics, Emilio Segre, cosmic rays, James Chadwick, Cambridge University, Shimizu, George Gamow, Frederic Joliot, Cavendish laboratory, P. L. Kapitsa, Hans Geiger, Maurice Goldhaber, Victor Weisskopf, David Frisch, Ehrenburg, Carl Anderson, Guglielmo Marconi, Louis de Broglie, P. A. M. Dirac, fellowship from National Council of Research, Arthur Holly Compton, Surgio de Benedetti, Giulio Racah, Sergei Vavilov, University at Sao Paolo, William Bragg, Cecil Powell, sigma star, and pi-meson decay.
Topics discussed include: Bruno Rossi, Gilberto Bernardini, Ettore Majorana, radioactivity, Antonio Lo Surdo, Antonio Garbasso, Lise Meitner, Ernest Rutherford, C. T. R. Wilson, John Cockcroft, P. M. S. Blackett, Gleb Wataghin, Gian Carlo Wick, Franco Rasetti, Enrico Persico, Dirac's theory, nuclear physics, Emilio Segre, cosmic rays, James Chadwick, Cambridge University, Shimizu, George Gamow, Frederic Joliot, Cavendish laboratory, P. L. Kapitsa, Hans Geiger, Maurice Goldhaber, Victor Weisskopf, David Frisch, Ehrenburg, Carl Anderson, Guglielmo Marconi, Louis de Broglie, P. A. M. Dirac, fellowship from National Council of Research, Arthur Holly Compton, Surgio de Benedetti, Giulio Racah, Sergei Vavilov, University at Sao Paolo, William Bragg, Cecil Powell, sigma star, and pi-meson decay.
University of Sao Paolo, Brazil (1951-1955); work with Ralph Shiller, Walter Schutzer, Mario Schoenberg; causal interpretation of quantum mechanics; probability theory - Pierre Simon Laplace’s theory; causality and chance, necessity and contingency; Hegel’s philosophy; lecturer at the Technion (Technical University), Israel (circa 1955-1956); marriage to Sara; problems in Israel; University of Bristol, research associate (1957-1961); visit with Niels Bohr in Copenhagen, 1957; negative experience at a conference-scientists interested in formulas but not the philosophy behind them.
Science fiction story idea The Matter of the Beings; dream about cats and missing the big picture because of concern about details; religious community compared to the scientific community; University of Sao Paolo, Brazil (1951-1955); work with Walter Schutzer, Ralph Shiller, Mario Schoenberg; exploration of philosophy including Hegel, Monou, Marx; necessity and contingency; Causality and Chance in Modern Physics; Brazilian nationality; visit to Jeanne-Pierre Vigier in Paris and Eric Burrup in England.