Tube Alloys The
neutron was discovered by
James Chadwick at the
Cavendish Laboratory at the
University of Cambridge in February 1932. In April 1932, his Cavendish colleagues
John Cockcroft and
Ernest Walton split
lithium atoms with accelerated
protons. Then, in December 1938,
Otto Hahn and
Fritz Strassmann at Hahn's laboratory in
Berlin-Dahlem bombarded
uranium with slowed neutrons, and discovered that
barium had been produced. Hahn wrote to his colleague
Lise Meitner, who, with her nephew
Otto Frisch, explained that the uranium
nucleus had been split. By analogy with the
division of biological cells, they named the process "
fission". , the minister responsible for
Tube Alloys|alt=Portrait sitting, in suit, in profile The discovery of fission raised the possibility that an extremely powerful
atomic bomb could be created. The term was already familiar to the British public through the writings of
H. G. Wells, in his 1913 novel
The World Set Free. Sir
Henry Tizard's
Committee on the Scientific Survey of Air Defence was originally formed to study the needs of anti-aircraft warfare, but branched out to study air warfare generally. In May 1939, a few months before the outbreak of the
Second World War in Europe in September 1939, it was directed to conduct research into the feasibility of atomic bombs. Tizard tasked
George Paget Thomson, the professor of physics at
Imperial College London, and
Mark Oliphant, an Australian physicist at the
University of Birmingham, with carrying out a series of experiments on uranium. By February 1940, Thomson's team had failed to create a chain reaction in natural uranium, and he had decided that it was not worth pursuing. Oliphant's team reached a strikingly different conclusion. He had delegated the task to two German refugee scientists,
Rudolf Peierls and Frisch, who could not work on the university's secret projects like
radar because they were
enemy aliens, and therefore lacked the necessary security clearance. They calculated the
critical mass of a metallic sphere of pure
uranium-235, and found that instead of tons, as everyone had assumed, as little as would suffice, and would explode with the power of thousands of tons of dynamite. Oliphant took the
Frisch–Peierls memorandum to Tizard. As a result, the
MAUD Committee was established to investigate further. It directed an intensive research effort. Four universities provided the locations where the experiments were taking place. The University of Birmingham undertook theoretical work, such as determining what size of critical mass was needed for an explosion. This group was run by Peierls, with the help of fellow German refugee scientist
Klaus Fuchs. The laboratories at the
University of Liverpool and the
University of Oxford experimented with different types of
isotope separation. Chadwick's group at Liverpool dealt with
thermal diffusion, a phenomenon observed in mixtures of mobile particles where the different particle types exhibit different responses to the force of a
temperature gradient.
Francis Simon's group at Oxford investigated the
gaseous diffusion, which works on the principle that at differing pressures uranium 235 would diffuse through a barrier faster than uranium 238. This was determined to be the most promising method.
Egon Bretscher and
Norman Feather's group at Cambridge investigated whether another element, now called
plutonium, could be used as a
fissile material. Because of the presence of a team of refugee French scientists led by
Hans von Halban, Oxford also had the world's main supply of
heavy water, which helped them theorise how uranium could be used for power. In July 1941, the MAUD Committee produced two comprehensive reports that concluded that an atomic bomb was not only technically feasible, but could be produced before the war ended, perhaps in as little as two years. The MAUD Committee unanimously recommended pursuing its development as a matter of urgency, although it recognised that the resources required might be beyond those available to Britain. But even before its report was completed, the Prime Minister,
Winston Churchill, had been briefed on its findings by his scientific advisor,
Frederick Lindemann, and had decided on a course of action. A new directorate known by the deliberately misleading name of
Tube Alloys was created to co-ordinate this effort. Sir
John Anderson, the
Lord President of the Council, became the minister responsible, and
Wallace Akers from
Imperial Chemical Industries (ICI) was appointed its director.
Early American efforts The prospect of Germany developing an atomic bomb was also of great concern to scientists in the United States, particularly those who were refugees from
Nazi Germany and other
fascist countries. In July 1939,
Leo Szilard and
Albert Einstein had
written a letter warning the President of the United States,
Franklin D. Roosevelt, of the danger. In response, Roosevelt created an
Advisory Committee on Uranium in October 1939, chaired by
Lyman Briggs of the
National Bureau of Standards. Research concentrated on slow fission for power production, but with a growing interest in isotope separation. On 12 June 1940,
Vannevar Bush, the president of the
Carnegie Institution of Washington, and
Harry Hopkins, a key advisor to the president, went to the president with a proposal to create a
National Defense Research Committee (NDRC) to co-ordinate defence-related research. The NDRC was formally created on 27 June 1940, with Bush as its chairman. It absorbed the Advisory Committee on Uranium which had gone beyond its original role and was now directing research. It became the Uranium Committee of the NDRC. , Director of the US
Office of Scientific Research and Development One of Bush's first actions as the chairman of the NDRC was to arrange a clandestine meeting with
Air Commodore George Pirie, the British air attaché in
Washington, and
Brigadier Charles Lindemann, the British Army attaché (and Frederick Lindemann's brother), to discuss a British offer of a full exchange of technical information. Bush was strongly in favour of this proposal, and at their meeting on 8 July 1940, he offered advice on how it should be presented. It was endorsed at a
Cabinet meeting on 11 July, and an official acceptance was conveyed to
Lord Lothian, the
British Ambassador to the United States, on 29 July. Among the wealth of information that the
Tizard Mission, a scientific mission sent to the United States to promote the exchange of military science and technology, brought to America were details about the MAUD Committee's deliberations and activities. Some information from the MAUD Committee had already been conveyed to the United States by
Ralph H. Fowler, the British scientific attaché to Canada. Cockcroft, a member of the Tizard Mission, brought more. Cockcroft and Fowler met with the Uranium Committee, but the information flow was largely one-way. Cockcroft reported that the American atomic bomb project lagged behind the British, and was not proceeding as fast. Work conducted in America included research by Szilard and
Enrico Fermi at
Columbia University into the possibility of a controlled
nuclear chain reaction; preliminary investigations into
isotope separation using
centrifugation,
gaseous diffusion and
thermal diffusion processes; and efforts to produce plutonium in the
cyclotron at the
Radiation Laboratory at the
University of California.
Kenneth Bainbridge from
Harvard University attended a MAUD Committee meeting on 9 April 1941, and was surprised to discover that the British were convinced that an atomic bomb was technically feasible. The Uranium Committee met at Harvard on 5 May, and Bainbridge presented his report. Bush engaged a group headed by
Arthur Compton, a
Nobel laureate in physics and chairman of the Department of Physics at the
University of Chicago, to investigate further. Compton's report, issued on 17 May 1941, did not address the design or manufacture of a bomb in detail. Instead it endorsed a post-war project concentrating on atomic energy for power production. On 28 June 1941, Roosevelt created the
Office of Scientific Research and Development (OSRD), with Bush as its director, personally responsible to the president. The new organisation subsumed the NDRC, now chaired by
James B. Conant, the
President of Harvard University. The Uranium Committee became the Uranium Section of the OSRD, but was soon renamed the S-1 Section for security reasons. Britain was at war, but the US was not. Oliphant flew to the United States in late August 1941, ostensibly to discuss the radar programme, but actually to find out why the United States was ignoring the MAUD Committee's findings. He discovered to his dismay that the reports and other documents sent directly to Briggs had not been shared with all members of the committee; Briggs had locked them in a safe. Oliphant then met with
William D. Coolidge, who was acting in Compton's place while the latter was in South America;
Samuel K. Allison, a colleague of Compton's at the University of Chicago;
Ernest O. Lawrence, the director of the Radiation Laboratory; Fermi and Conant to explain the urgency. In these meetings he spoke of an atomic bomb with forcefulness and certainty. Allison recalled that when Oliphant met with the S-1 Section, he "came to a meeting, and said 'bomb' in no uncertain terms. He told us we must concentrate every effort on the bomb and said we had no right to work on power plants or anything but the bomb. The bomb would cost $25 million, he said, and Britain did not have the money or the manpower, so it was up to us." Bush and Conant received the final MAUD Report from Thomson on 3 October 1941. With this in hand, Bush met with Roosevelt and Vice-President
Henry A. Wallace at the
White House on 9 October 1941, and obtained a commitment to an expanded and expedited American atomic bomb project. Two days later, Roosevelt sent a letter to Churchill in which he proposed that they exchange views "in order that any extended efforts may be coordinated or even jointly conducted." == Collaboration ==