Interview with Thomas Witten, Homer J. Livingston Professor, Emeritus, in the Department of Physics, James Franck Institute. Witten recounts his childhood in Maryland, Utah, and then Colorado, as his father, a medical doctor moved jobs, and he describes his undergraduate experience at Reed College and where majored in physics and where he benefited from excellent attention from the professors. He discusses his graduate work at UC San Diego, where he was advised by Shang Ma working on two-dimensional charged Bose gas research, and he describes his postdoctoral research at Princeton to work with John Hopfield. Witten conveys the exotic nature of Ken Wilson’s ideas on renormalization during that time, and he explains the origins of soft matter physics as a distinct field and his work at Saclay before joining the faculty at the University of Michigan. He describes his subsequent research on pushing concepts of renormalization into polymers and related work on the Kondo effect. Witten explains his decision to join the research lab at Exxon, and he conveys Exxon’s emulation of Bell Labs as a place where he could pursue basic science within an industrial research lab, and where he could continue his work on polymers. He describes the downsizing of the lab and his decision to join the faculty at the University of Chicago, and his discusses his developing interests in buckyballs and capillary flow. Witten describes his affiliation with the James Franck Institute and its rich history, and he explains his current interests in granular materials, thin sheets, and colloidal rotation. At the end of the interview, Witten emphasizes the technological impact of fast video on soft matter physics and his interest in the physics of crumpling objects.
Interview with John Martinis, professor of physics at UC Santa Barbara. Martinis gave the interview from Australia, where he was consulting for Silicon Computing following his affiliation with Google’s efforts to build a quantum computer. He surveys the current state of play toward that goal, and explains what applications quantum computing can serve, and how the field is clarifying the technological requirements to achieve a quantum computer. Martinis recounts his childhood in Los Angeles, his early interests in computers, and his undergraduate experience at Berkeley where he gravitated toward experimental physics. He describes his interactions with John Clarke and his motivations to stay at Berkeley for graduate school, where he focused on SQUIDS and was captivated by Tony Leggett’s ideas on quantum tunneling. Martinis explains his interest in working with Michel Devoret at Saclay for his postdoctoral research, where there was much excitement over high Tc and YBCO materials. He describes his subsequent work at NIST and his decision to join the faculty at Santa Barbara around the time he became focused on quantum computing. Martinis narrates the technological challenges of building qubits and error correction, and he explains how he got involved with Google and joined his style with its research culture. He describes his role as chief scientist in the collaboration and why his vision and Google’s diverged. Martinis addresses the issue of “hype” in quantum computing. At the end of the interview, Martinis emphasizes the centrality of systems engineering to his research agenda, and he explains why quantum supremacy will demonstrate the need for quantum computing and the limitations of classical computing.
