Standard model (Nuclear physics)

Interviewed by
David Zierler
Location
Video conference
Abstract

The interviewee has not given permission for this interview to be shared at this time. Transcripts will be updated as they become available to the public. For any questions about this policy, please contact .

Interviewed by
David Zierler
Interview date
Location
Video conference
Abstract

Interview with Mikhail Shifman, Ida Cohen Fine Professor of Theoretical Physics at the William I. Fine Theoretical Physics Institute at the University of Minnesota. The interview begins with Shifman’s thoughts on the differences between the physics community in Russia versus the US, as well as his thoughts on the future of supersymmetry. Then Shifman turns to his family history and memories of growing up Jewish in Russia under Communist rule. He describes his early interests in math and physics, and he recalls that reading Feynman’s lectures (translated into Russian) swayed him toward physics. Shifman recounts his undergraduate education at the Moscow Institute for Physics and Technology, where he had access to many great Russian physicists. He discusses his decision to focus on high energy physics and his graduate studies at the Institute for Theoretical and Experimental Physics (ITEP). Shifman recalls the November Revolution and its implications for his PhD research which led to the penguin mechanism. Then Shifman discusses being hired by ITEP after his PhD, and he overviews his research areas such as gluon condensate, axions, and his work connecting Yang-Mills with supersymmetry. Shifman recalls his decision to immigrate to the US and the offer that led him to the University of Minnesota, as well as the cultural shift and transition that came with that move. He recounts the honor of receiving the Sakurai Prize, as well as his many book projects. Toward the end of the interview, Shifman talks about his more recent work in supersymmetric solitons, shares his thoughts on the future of the Standard Model, and reflects on the impact of SVZ sum rules.

Interviewed by
David Zierler
Location
Video conference
Abstract

The interviewee has not given permission for this interview to be shared at this time. Transcripts will be updated as they become available to the public. For any questions about this policy, please contact .

Interviewed by
David Zierler
Interview date
Location
Video conference
Abstract

Interview with Savas Dimopoulos, Professor of Physics at Stanford University. The interview begins with Dimopoulos reflecting on how the pandemic has affected his research, and he gives his initial impressions on the g-2 muon anomaly experiment at Fermilab. He discusses the push and pull between theory and experimentation when searching for physics beyond the Standard Model. Dimopoulos then recounts his early childhood in Turkey, where his family was part of the Greek minority. Due to ethnic tensions, he fled with his family to Athens as refugees. Dimopoulos remembers his early exposure to math and physics and being torn between the two. He describes moving to the US at age 18 for his undergraduate studies at University of Houston. Dimopoulos then recounts his inclination toward theory and his acceptance at University of Chicago to pursue his graduate studies under Yoichiro Nambu. He discusses his post-doctoral appointment at Columbia which then led to an offer from Stanford. He explains his research in baryogenesis and technicolor, as well as his brief time at Harvard with Howard Georgi. Dimopoulos talks about his return to Stanford, his work at CERN, and his research on large extra dimensions with Dvali and Arkani-Hamed. He concludes the interview with predictions for the future of physics beyond the Standard Model.

Interviewed by
David Zierler
Interview date
Location
Video conference
Abstract

Interview with Yifang Wang, Director of the Institute of High Energy Physics, Chinese Academy of Sciences. He describes the role of the Institute within the Chinese Academy, and he recounts his childhood in Nanjing, Jiangsu Province, in China. Wang discusses his undergraduate work in nuclear physics at Nanjing University and he discusses the opportunities to being chosen by Sam Ting to go to CERN. He discusses his graduate work at the University of Florence, where Ting had the L3 experiment, and he described his work going back and forth from CERN for six years, and his involvement in the Higgs search and excited leptons. Wang discusses his postgraduate work in tau polarization and some of the theoretical bases for testing the Standard Model. He describes his work on the AMS collaboration and the search for antimatter, and he describes his postdoctoral work in neutrino oscillations at Stanford. Wang discusses the opportunities leading to his offer from the Institute of High Energy Physics in Beijing and the prospect of shooting a neutrino beam. He discusses the unique ways that the Chinese government supports physics, and the importance of the Beijing Electron-Positron Collider and the search for glueballs. Wang describes his increasing responsibilities at the Institute leading to his directorship, and he discusses his current work on the Large Circular Collider and the future prospects of high energy physics in China. He describes his tenure as director of Juno and the origins of the Daya Bay experiment. At the end of the interview, Wang asserts that the future of elementary particle physics is through the Higgs for which new understandings of space and time will be achieved, and he emphasizes the importance of scientific collaboration and the benefits of competition as a key component in the future of American-Chinese relations.

Interviewed by
David Zierler
Interview date
Location
Video conference
Abstract

Interview with Daniel R. Marlow, Evans Crawford Class of 1911 Professor of Physics, at Princeton University. Marlow recounts his childhood in Ontario and his father’s military appointment which brought his family to the United States when he was fourteen. He describes his undergraduate experience at Carnegie Mellon and the considerations that compelled him to remain for his graduate work in physics. Marlow describes his thesis research under the direction of Peter Barnes and his research visits to Los Alamos, Brookhaven, and JLab, and he surveys the theoretical advances that were relevant to his experimental work. He explains his decision to stay at CMU as a postdoctoral researcher and as an assistant professor, and he describes his interests which straddled the boundary between particle physics and nuclear physics. Marlow describes the opportunities leading to his faculty appointment at Princeton by way of the research in k+ and pi+nu nu-bar experiments at CERN. He discusses his involvement in planning for the SSC, and how the Gem collaboration was designed to find the Higgs and supersymmetry before the LHC. Marlow discusses the e787 experiment and the lesson gained that rare kaon decay experiments are more difficult than they appear at first glance. Marlow describes the origins of the Belle project in Japan at KEK and its relationship to BaBar, and he explains how finding the Higgs was the capstone to the Standard Model. He surveys the current state of play in experimental particle physics and why he encourages students to follow their interests without overly analyzing future trends in the field. At the end of the interview, Marlow describes his current interest in studying displaced vertices and long-lived particle searches, and he muses that toward the end of his career, he wants to become more of a “graduate student” so that he can focus more exclusively on the physics that is most compelling to him.

Interviewed by
David Zierler
Interview date
Location
Video conference
Abstract

Interview with Sally Dawson, Senior Scientist at Brookhaven National Laboratory and head of the high energy theory group there. Dawson recounts her childhood in Cleveland where her father was a rocket scientist for NASA. She describes her undergraduate education at Duke and how she came to focus on physics. Dawson cites the formative influence of Howard Georgi during her graduate work on proton decay and precision calculations at Harvard. She discusses her postdoctoral research in the theory group at Fermilab and her focus on some of the theoretical implications of the Tevatron project. Dawson surveys the research on supersymmetry and the Higgs mass at that time, and she explains her decision to join the scientific staff at Brookhaven where Mike Creutz and Bill Marciano were doing research of interest to her. Dawson discusses her long-term efforts to search for new physics beyond the Standard Model and she describes her book the Higgs Hunter’s Guide. She surveys what is known and unknown about the Higgs boson, and she discusses the g-2 muon experiment at Brookhaven and its relation to the current experiment at Fermilab. Dawson explains the value of the Snowmass process in achieving a high-level and future-oriented view of where the field is headed, and why the discovery of the Higgs demonstrated the overall accuracy of the Standard Model. She surveys the new questions that can be probed following the Higgs discovery and the complementary nature of neutrino precision measurements for this research. At the end of the interview, Dawson discusses her outreach efforts to emphasize that particle theory is not “dead,” why she sees advisory work as a vital service to the field, and why over the course of her career, experimentalists have provided more guidance to theorists, and not vice-versa.

Interviewed by
David Zierler
Interview date
Location
video conference
Abstract

In this interview, Michael Peskin discusses: his childhood in Philadelphia; Alan Luther; particle physics at Cornell; relationship with David Politzer; Leonard Susskind; reactions to Gabriele Veneziano’s string theory paper; overview of Ken Wilson’s career and publications; Thirring model; the Harvard Society of Fellows; Nambu-Jona-Lasinio model; quark confinement work; thinking Beyond-the-Standard-Model (BSM); the problem of electroweak symmetry breakage; Stanley Brodsky and Peter Lepage; work on technicolor models to try to explain the quark and lepton mass spectrum; involvement in discussions around the Superconducting Super Collider (SSC); interest in e+e- colliders; collaboration with Bryan Lynn; question of the mass of the top quark; developing the Introduction to Quantum Field Theory textbook with Daniel Schroeder; impact of the collapse of the SSC on physics research; involvement in planning discussions for the International Linear Collider (ILC); movement into cosmology and astrophysics; dark sector theories; reaction to the term “God particle;” discussion of his book Concepts of Elementary Particle Physics; explanations of various views of the top quark; experiences working with Stanford graduate students; changes at SLAC and its contributions to the field; topics in string theory; AdS/CFT duality; BaBar and Belle experiments and CP violation; current work on electroweak symmetry breaking in Randall-Sundrum models; ILC as the future of high energy physics and physics BSM; China’s proposed Circular Electron Positron Collider (CEPC); technical details of proposed Future Circular Collider (FCC); plasma wake field accelerators; work on particle physics website for Michael Cooke of the DOE; and the technological contributions of particle physics, especially in regards to informatics development, machine learning, and unique sensor development. Toward the end of the interview, Peskin reflects on the utility and limitations of the Standard Model, and details the most likely opportunities for discovery, especially those made possible through the construction of an e+e- collider.

Interviewed by
David Zierler
Interview date
Location
Video conference
Abstract

In this interview, Art McDonald discusses: careerlong work around tests of the Standard Model; Sudbury Neutrino Observatory (SNO) measurement of neutrino properties that fall outside the original Standard Model; childhood and family history in Canada; master’s work on positron annihilation; time at the Kellogg Laboratory at Caltech with William Fowler; early origins of and motivations behind the SNO project; postdoc at Chalk River Nuclear Laboratory using a particle accelerator to continue experimental work on fundamental symmetries; history of Chalk River; collaborations with George Ewan; collaborations with Hamish Robertson studying the measurement and production of lithium-6; work at Princeton with Will Happer using lasers to polarize nuclei; building a continuous laser beam at Chalk River; work on parity violation in nuclei; work on the Princeton cyclotron; overseeing Kevin Coulter’s thesis project, the first use of laser-induced-spin-polarization of helium; polarized Helium-3’s current uses; technical challenges of building SNO and the transition from construction to operations; SNO and the solar neutrino problem; Herb Chen’s involvement with the design of SNO; SNOLAB; decision take position at Queen’s University; early published findings from SNO; comparison of Super-Kamiokande and SNO experiments; impact of SNO results on the understanding of the Standard Model; winning the Nobel Prize for solving the solar neutrino problem, observing that solar electron neutrinos were oscillating into muon and tau neutrinos; current work with the DarkSide-20k collaboration and how that work led to an open-source ventilator project in the midst of the COVID-19 pandemic; current SNOLAB DEAP experiment using liquid argon to attempt to detect dark matter particles. Toward the end of the interview, McDonald reflects on interrelatedness across disciplines within physics, and his ongoing curiosity in searches for dark matter and neutrino-less double beta decay. 

Interviewed by
David Zierler
Interview dates
May 20 and June 10, 2020
Location
Video conference
Abstract

In this interview, Fred Gilman, Buhl Professor of Theoretical Physics at Carnegie Mellon University discusses his career as a theoretical physicist and hopes for the future. He discusses being a postdoc in the theoretical physics group at SLAC and his work on deep inelastic scattering. He details his involvement with the Superconducting Super Collider and the eventual decision to shut down its construction. Gilman reflects on his involvement with the Snowmass Conference as well as his work on the High-Energy Physics Advisory Panel. Lastly, Gilman speaks about his excitement for future discoveries from the Vera Rubin Observatory and his hopes for Carnegie Mellon and their involvement with physics.