In this interview, David Zierler, Oral Historian for AIP, interviews Thomas Mason, professor of chemistry and biochemistry at UCLA. Mason recounts his childhood in Frederick, MD, and he describes the influence of his father, who was a zoologist. Mason discusses his undergraduate education at the University of Maryland where he pursued a dual degree in physics and electrical engineering, and he describes the opportunity that led to his graduate work at Princeton. He explains his work at Exxon Research and Engineering Lab, where he worked with Dave Weitz, and he describes the growth of soft matter condensed physics. Mason discusses his dissertation in micro-rheology and some of the broader questions in Brownian systems when colloids are micro-dispersed. He describes his postdoctoral work in France with Jerome Bibette, where he focused on the science of emulsification, and he discusses his senior postdoctoral position at Johns Hopkins, where he worked with Scot Kuo who was concentrating on the rheology of concentrated DNA. Mason explains his decision to join Exxon as a principal investigator, where he researched asphaltenes, and he discusses some of the broader advances in soft matter physics fostered at the Exxon lab. He describes his motivations for returning to academia, and in particular his desire to teach, he explains the opportunity leading to his tenure at UCLA, and he describes his contributions to the NanoSystems Institute. Mason discusses his involvement in many of the clinical and therapeutic aspects of soft matter physics, and at the end of the interview, he offers insight on where his broad interests in platform technologies might be relevant as his field continues to grow.
This interview was conducted as part of the Archives for the History of Quantum Physics project, which includes tapes and transcripts of oral history interviews conducted with circa 100 atomic and quantum physicists. Subjects discuss their family backgrounds, how they became interested in physics, their educations, people who influenced them, their careers including social influences on the conditions of research, and the state of atomic, nuclear, and quantum physics during the period in which they worked. Discussions of scientific matters relate to work that was done between approximately 1900 and 1930, with an emphasis on the discovery and interpretations of quantum mechanics in the 1920s. Also prominently mentioned are: Niels Henrik David Bohr, Paul Ehrenfest, Albert Einstein, H. von Euler, Wander de Haas, Gilles Holst, Heike Kammerlingh Onnes, Hendrik Anthony Kramers, Hendrik Antoon Lorentz, Max Planck, John Joseph Thomson; Conseil National de la Recherche Scientifique, Rijksuniversiteit te Leiden, and Teyler Foundation.
