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The Radiation Laboratory in Berkeley, California, was the birthplace of particle accelerators, radioisotopes, and modern big science. This first volume of its history is a saga of physics and finance in the Great Depression, when a new kind of science was born. Here we learn how Ernest Lawrence used local and national technological, economic, and manpower resources to build the cyclotron, which enabled scientists to produce high-voltage particles without high voltages. The cyclotron brought Lawrence forcibly and permanently to the attention of leaders of international physics in Brussels at the Solvay Congress of 1933. Ever since, the Rad Lab has played a prominent part on the world stage. The book tells of the birth of nuclear chemistry and nuclear medicine in the Laboratory, the discoveries of new isotopes and the transuranic elements, the construction of the ultimate cyclotron, Lawrence's Nobel Prize, and the energy, enthusiasm, and enterprise of Laboratory staff. Two more volumes are planned to carry the story through the Second World War, the establishment of the system of national laboratories, and the loss of Berkeley's dominance of high-energy physics.
Events at the Lawrence Radiation Laboratory at Berkeley to the end of 1940 are recalled. Radiation detection, discovery of new isotopes and elements, and accelerators are among the subjects included. 29 photographs. (RWR).
Behind the scenes of the Lawrence Livermore National Laboratory, the quintessential American lab. Nobel laureate Ernest O. Lawrence and renowned physicist Edward Teller founded the Lawrence Livermore National Laboratory in 1952. A new ideas incubator, the Lab was at the heart of nuclear testing and the development of supercomputers, lasers, and other major technological innovations of the second half of the twentieth century. Many of its leaders became prominent figures in the technical and defense establishments, and by the end of the 1960s, Livermore was the peer of Los Alamos National Lab, a relationship that continues today. In The American Lab, former Livermore director C. Bruce Tarter offers unparalleled access to the inner workings of the Lab. Touching on Cold War nuclear science and the technological shift that occurred after the fall of the Berlin Wall, he traces the Lab’s evolution from its founding under University of California management through its transfer to private oversight. Along the way, he highlights important episodes in that journey, from the invention of Polaris, the first submarine-launched ballistic missile, to the Lab’s controversial role in the Star Wars program. He also describes Livermore’s significant responsibilities in stockpile stewardship, the program that ensures the safety and reliability of the US nuclear arsenal. The book portrays the lab’s extensive work on thermonuclear fusion, a potential source of unlimited energy; describes the development of the world’s largest laser fusion installation, the National Ignition Facility; and examines a number of smaller projects, such as the Lab’s participation in founding the Human Genome Project. Finally, it traces the relationship of the Lab to its federal sponsor, the Department of Energy, as it evolved from partnership to compliance with orders, a shift that affected all of the national laboratories. Drawing on oral histories, internal laboratory documents, and the author’s personal experiences from more than fifty years as a Lab employee, The American Lab is an illuminating history of the Lab and its revolutionary work.
The Radiation Laboratory in Berkeley, California, was the birthplace of particle accelerators, radioisotopes, and modern big science. This first volume of its history is a saga of physics and finance in the Great Depression, when a new kind of science was born. Here we learn how Ernest Lawrence used local and national technological, economic, and manpower resources to build the cyclotron, which enabled scientists to produce high-voltage particles without high voltages. The cyclotron brought Lawrence forcibly and permanently to the attention of leaders of international physics in Brussels at the Solvay Congress of 1933. Ever since, the Rad Lab has played a prominent part on the world stage. The book tells of the birth of nuclear chemistry and nuclear medicine in the Laboratory, the discoveries of new isotopes and the transuranic elements, the construction of the ultimate cyclotron, Lawrence's Nobel Prize, and the energy, enthusiasm, and enterprise of Laboratory staff. Two more volumes are planned to carry the story through the Second World War, the establishment of the system of national laboratories, and the loss of Berkeley's dominance of high-energy physics.
A heroic time -- South Dakota boy -- "I'm going to be famous" -- Shims and sealing wax -- Oppie -- The deuton affair -- The cyclotron republic -- John Lawrence's mice -- Laureate -- Mr. Loomis -- "Ernest, are you ready?" -- The racetrack -- Oak Ridge -- The road to Trinity -- The postwar bonanza -- Oaths and loyalties -- The shadow of the Super -- Livermore -- The Oppenheimer affair -- The return of small science -- The "clean bomb" -- Element 103.
In November 1960, bolstered by anti-Communist ideologies, John F. Kennedy was elected president of the United States. Soviet Premier Nikita Khrushchev brandished nuclear diplomacy in an attempt to force the United States to abandon Berlin, setting the stage for a major nuclear confrontation over the fate of West Berlin. From Berkeley to Berlin explores how the United States had the wherewithal to stand up to Khrushchev's attempts to expand Soviet influence around the globe. The story begins when a South Dakotan, Ernest Lawrence, the grandson of Norwegian immigrants, created a laboratory on the Berkeley campus of the University of California. The "Rad Lab" attracted some of the finest talent in America to pursue careers in nuclear physics. When it was discovered that Nazi Germany had the means to build an atomic bomb, Lawrence threw all his energy into waking up the American government to act. Ten years later, when Joseph Stalin's Soviet Union became a nuclear power, Lawrence drove his students to take on the challenge to deter a Communist despot's military ambitions. Their journey was not easy: they had to overcome ridicule over three successive failures, which led to calls to see them, and their laboratory, shut down. At the Nobska Conference in 1956, the Rad Lab physicists took up the daunting challenge to provide the Navy with a warhead for Polaris. The success of the Polaris missile, which could be carried by submarines, was a critical step in establishing nuclear deterrent capability and helped Kennedy stare down Khrushchev during the Berlin Crisis of 1961. Six months after the height of the Berlin Crisis, Kennedy thought about how close the country had come to destruction, and he flew out to Berkeley to meet and thank a small group of Rad Lab physicists for helping the country avert a nuclear war.
SCOTT (Copy 1): From the John Holmes Library collection.
"An extremely important work. . . . It demonstrates the power that ethnographic analysis can have when directed at an examination of our own society's central nervous system."—Faye Ginsburg, author of Contested Lives "Essential reading for anyone trying to understand what Cold War science was in all its cultural aspects and what this same science now in transformation might yet be."—George E. Marcus, co-editor of The Traffic in Culture
"Nuclear weapons, since their conception, have been the subject of secrecy. In the months after the dropping of the atomic bombs on Hiroshima and Nagasaki, the American scientific establishment, the American government, and the American public all wrestled with what was called the "problem of secrecy," wondering not only whether secrecy was appropriate and effective as a means of controlling this new technology but also whether it was compatible with the country's core values. Out of a messy context of propaganda, confusion, spy scares, and the grave counsel of competing groups of scientists, what historian Alex Wellerstein calls a "new regime of secrecy" was put into place. It was unlike any other previous or since. Nuclear secrets were given their own unique legal designation in American law ("restricted data"), one that operates differently than all other forms of national security classification and exists to this day. Drawing on massive amounts of declassified files, including records released by the government for the first time at the author's request, Restricted Data is a narrative account of nuclear secrecy and the tensions and uncertainty that built as the Cold War continued. In the US, both science and democracy are pitted against nuclear secrecy, and this makes its history uniquely compelling and timely"--