Otto Robert Frisch

Austrian–British physicist (1904–1979)

Frisch, the son of a Viennese printer and publisher, was educated at the University of Vienna where he obtained his doctorate in 1926. He was employed in Berlin (1927–30) at the German national physical laboratory, the Physikalisch Technische Reichsanstalt, and moved to the University of Hamburg in 1930. However, with the introduction of Hitler's racial laws, he was sacked in 1933 and consequently traveled via Copenhagen to England. After working at the universities of Birmingham and Liverpool (1939–43) he moved to America and spent the period 1943–45 at Los Alamos, working on the development of the atom bomb. With the end of the war Frisch worked briefly at the Atomic Energy Research Establishment at Harwell, leaving in 1947 to take up the Jackson Chair of Physics at Cambridge, a post he held until his retirement in 1972.

In 1939 Frisch, with his aunt, Lise Meitner, was closely involved in the crucial discovery of nuclear fission. He spent Christmas in Sweden visiting Meitner, who reported to him some strange results obtained by her former colleague Otto Hahn. Hahn found that when uranium was bombarded with neutrons, one of its decay products was the much lighter element barium. Frisch said that his first reaction was that Hahn had made a mistake, but Meitner was more inclined to trust Hahn's qualities as a good chemist. After some thought and calculation they concluded that this must in fact be what was later called nuclear fission. Frisch rushed back to Copenhagen to inform Niels Bohr who was able to confirm Hahn's experiments. But in all this excitement the most important point had been missed – the mechanism of the neutron chain reaction. However the thought did occur independently to many others.

Frisch did further work on fission while at Birmingham, collaborating with Rudolph Peierls in confirming Bohr's suggestion that a chain reaction would be more likely to result with uranium–235 rather than with the more common isotope, uranium–238. After much work Frisch came to the basic and frightening conclusion that an “explosive chain reaction” could be produced with a pound or two of uranium–235 rather than the tons of it which he first thought would be necessary. Frisch and Peierls were therefore probably the first two people in the world to be aware not just of the possibility of a nuclear bomb but of its practicality. They immediately wrote a report that was sent to Henry Tizard, a scientific adviser to the British government, which Frisch claimed was decisive in getting the British Government to take the atomic bomb seriously.

In 1979 Frisch produced his fascinating and witty memoirs, What Little I Remember.

The Austrian-British physicist Otto Robert Frisch (1904-1979) was recognized for his significant role in the discovery of nuclear fission.

Otto Robert Frisch was born on October 1, 1904, in Vienna, Austria, the son of Justinian and Auguste (Meitner) Frisch. Though his father had a doctorate in law, his mother was an accomplished musician, and the family had intellectual connections, his father was forced by financial circumstances to pursue a career as a printer. Young Frisch thus grew up in a hardworking bourgeois Jewish family of extensive education and high expectations. Educated in a Viennese gymnasium, he learned Latin, Greek, and some arithmetic, but most of his mathematical training was private and personal.

At the age of ten his father introduced him to Cartesian coordinates, and within a couple of days he had worked out for himself the equation of the circle. At the age of 12 his father again tutored him, this time in trigonometry. Upon learning the definition of sine and cosine, he was shown the equation sin² x + cos² x = 1, to which he replied, "Of course - it's obvious," thereby surprising his father and impressing those who heard the anecdote. Later, he was coached in calculus by Olga Neurath, a blind mathematician acquainted with many members of the Vienna circle of mathematicians and philosophers, with whom Frisch also came into contact. One of the most important events of his gymnasium days came when he had the opportunity to hear Albert Einstein speak on his theory of special relativity, scarcely hoping that one day he would meet him on a professional level.

In 1922 he entered the University of Vienna, graduating in 1926 with a Ph.D. in physics. For a few months he worked as a consultant for Siegmund Strauss, an Austrian inventor tinkering with x-ray dosimeters. From Strauss he must have learned a great deal about the construction of technical measuring apparatus, for this was to be a great strength of Frisch's throughout his long career. A few months later, in 1927, he was offered a research job in Berlin at the German National Physical Laboratory (Physikalische Technische Reichsanstalt), where he worked in the optics division under Carl Müller. Here he was also the colleague of his eminent aunt Lise Meitner, herself a physicist. She and Otto Hahn had collaborated for 20 years on work eventually to lead to the discovery of uranium fission. Frisch enjoyed his three years in Berlin, conducting research, making friends and contacts, even meeting his aunt's personal friend Einstein.

This period ended in 1930 when the German physics professor Otto Stern offered him a position as assistant, which Frisch later humorously described as a "high-class technician." There he conducted experiments upon molecular beams (that is, moving ionized gas molecules), deflecting them with magnets and measuring their deflection. Such controlled experiments necessitated the use of very delicate, very precise technical equipment which Frisch himself designed.

Germany in 1933 began to be dangerous for Jews. Hitler had come to power and racial laws were passed forbidding Jews to engage in certain activities, so Frisch began to look elsewhere for opportunities. He met Niels Bohr that summer at a conference in Copenhagen and became friendly with him. Then in October he visited England on a research grant, working at Birkbeck College in London under Patrick M. S. Blackett. With his grant nearing expiration in 1934, Bohr invited him back to Copenhagen with the compliment: "You must come to Copenhagen to work with us. We like people who can acutally perform thought experiments" Frisch went and remained for five years. There he continued work he had already begun on radioactivity, looking for new radioactive elements produced by alpha-ray bombardment - work requiring the use of more delicate measuring instruments which, again, he constructed. He also became more intimately acquainted with Bohr, whom he came to admire as the most profound thinker of all the modern physicists.

With Hitler's military successes in Austria in 1938 and Czechoslovakia in 1939, Frisch began to worry that he might be forced to return to Austria, now under German control, where he feared being placed in a concentration camp, so once more he put out feelers to England for possible work. Ironically, this most precarious time of his life also saw him play one of his most crucial scientific roles. Over the Christmas vacation of 1939 Frisch visited his aunt, now in Sweden. She and Otto Hahn were still collaborating - now by letter - in work on radioactivity. Having just received a letter from Hahn, she read it to Frisch while they were on an outing in the snow - she on foot, he on skis. Hahn had written to convey the startling information that uranium bombarded by neutrons produced the lighter element barium. Upon finishing the letter they sat down on a tree trunk, Frisch still in his skis, to calculate upon scraps of paper the possibility that uranium could split into barium. Between them, they were able to work out the probability.

Frisch returned to Copenhagen to inform Bohr and sent a short note of the discovery of nuclear fission (his coinage) to the British scientific journal Nature. In the excitement the concept of a chain reaction was totally missed by Frisch, though a Danish colleague, Christian Muller, quickly pointed it out. Frisch initially thought the idea absurd, suggesting that otherwise no uranium ore deposits could exist without exploding - until he recalled that the impurities within those ores acted as controls by blocking the reaction.

Also at this time (late in 1939) Frisch received a letter from Mark Oliphant, head of the Department of Physics at the University of Birmingham, offering him a nominal job as assistant, the real purpose being to get him further from Germany. His work consisted of meeting with Oliphant's beginning students to clarify whatever Oliphant may have confused them on. With little else to do he interested himself in problems related to uranium fission, especially that of separating U ₂₃₅ from the more common U ₂₃₈ (two forms of uranium differing in number of neutrons, and therefore in stability). Collaborating with Rudolph Peierls, he confirmed Bohr's suggestion that a chain reaction was more likely from U 235 (because less stable). But his calculations upon the rapidity of a chain reaction and the amount of uranium needed for a critical mass disputed Bohr's belief that an atomic bomb was not feasible, for rather than tons of uranium being necessary, only one or two pounds were required. And with the perfection of his and Peierls' techniques for separating U ₂₃₅ from U ₂₃₈, he realized that a more elaborate design with more separation tubes might enable one to produce one pound of uranium in a matter of weeks. This was startling. And it was frightening, for it opened the possibility that the Germans might be capable of constructing the bomb.

Later in 1940 Frisch transferred to the Liverpool Institute. From that base of research, for the next three years, he was to visit Oxford and Cambridge. At Liverpool he worked under James Chadwick, who in 1943 headed the British Atomic-Energy Commission to the United States. Frisch followed him there, first being naturalized as a British citizen - a process which took the remarkably short time of one week. In Washington, D.C., he met General Leslie Groves, who sent him to Los Alamos, New Mexico, to conduct secret research on the atomic bomb under Robert Oppenheimer. There he remained until 1945, seeing the Trinity test succeed in July of that year, near Alamogordo, New Mexico - the first atomic explosion.

After the war's end he returned to England, where from 1945 to 1947 he held the post of division leader in the Atomic Energy Research Establishment at Harwell, under Robert Cockburn. In 1947 he was given the Jackson Chair of Physics at Trinity College in Cambridge, where after a life as a travelling "scholar" he finally settled down, conducting research at the Cavendish Laboratory. In 1951 he married a graphic artist, Ulla Blau; they had two children - Monica Eleanor and David Anthony. Frisch remained at Cambridge, actively working until his retirement in 1972, continuing his research in physics through the use of newer techniques, including bubble chambers, lasers, and computers. The last years of his life were happy and fulfilling. He was, he said in 1979 shortly before his death, "a very lucky man." Among his awards and honors, the two bestowed upon him by his adopted home were most appreciated: the Order of the British Empire - Medal of Freedom (1946) and his election to the Royal Society (1948).

Further Reading

The only biography available is Frisch's autobiography, What Little I Remember (1979). This work is very rewarding - it does not pretend to be scholarly, but it conveys the excitement of Frisch's life, his humor, and his love of science and his fellow scientists. Frisch has also written works popularizing ideas of modern atomic physics. They are obsolete now, but still worth reading: Meet the Atoms (1947) and Atomic Physics Today (1961).

The noun has one meaning:

Meaning #1: British physicist (born in Austria) who with Lise Meitner recognized that Otto Hahn had produced a new kind of nuclear reaction which they named nuclear fission; Frisch described the explosive potential of a chain nuclear reaction (1904-1979)
  Synonyms: Frisch, Otto Frisch

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Otto Robert Frisch
Otto Robert Frisch's wartime Los Alamos ID badge photo.
Born	1 October 1904 Vienna, Austria
Died	22 September 1979
Nationality	Austrian/British
Fields	physics
Known for	atomic bomb
Influences	Rudolf Peierls

Otto Robert Frisch (1 October 1904, Vienna  – 22 September 1979), Austrian-British physicist. With his collaborator Rudolf Peierls he designed the first theoretical mechanism for the detonation of an atomic bomb in 1940.

Contents 1 Overview 2 Retirement 3 External links 4 References

Overview

Frisch was Jewish, born in Vienna, Austria in 1904, the son of a painter and a concert pianist. He himself was talented at both but also had inherited his aunt Lise Meitner's love of physics and commenced a period of study at the University of Vienna, graduating in 1926 with some work on the effect of the newly discovered electron on salts. After some years working in relatively obscure laboratories in Germany, Frisch obtained a position in Hamburg under the Nobel Prize winning scientist Otto Stern. Here he produced novel work on the diffraction of atoms (using crystal surfaces) and also proved that the magnetic moment of the proton was much larger than had been previously supposed.^[1]

The accession of Adolf Hitler to the chancellorship of Germany in 1933 made Otto Robert Frisch make the decision to move to London, England where he joined the staff at Birkbeck College and worked with the physicist Patrick Maynard Stuart Blackett on cloud chamber technology and artificial radioactivity. He followed this with a five year stint in Copenhagen with Niels Bohr where he increasingly specialised in nuclear physics, particularly in neutron physics.

During the Christmas holiday in 1938 he visited his aunt Lise Meitner in Kungälv. While there she received the news that Otto Hahn and Fritz Strassmann in Berlin had discovered that the collision of a neutron with a uranium nucleus produced the element barium as one of its byproducts. Hahn could not explain the result. Frisch and Meitner hypothesized that the uranium nucleus had split in two, explained the process, estimated the energy released, coined the term fission to describe it, and theorized the potential for a chain reaction. Political restraints of the Nazi era forced the team to publish separately. Hahn's paper described the experiment and the finding of the barium byproduct.^[2] Meitner's and Frisch's paper explained the physics behind the phenomenon.^[3] Frisch went back to Copenhagen where he was quickly able to isolate the fragments produced by fission reactions.^[4] As Frisch himself later recalls, a fundamental idea of the direct experimental proof of the nuclear fission was suggested to him by George Placzek. ^{[5] [6]}

In the Summer of 1939 Frisch left Denmark for what he anticipated would be a short trip to Birmingham. But the outbreak of World War II precluded his return. With war on his mind and working with the physicist Rudolf Peierls the two produced the Frisch-Peierls memorandum which was the first document to set out a process by which an atomic explosion could be generated; using separated Uranium-235 which would require a fairly small critical mass and could be made to achieve criticality using conventional explosives and create an immensely powerful detonation. The memorandum went on to predict the effects of such an explosion - from the initial blast to the resulting fallout.

This memorandum was the basis of British work on building an atomic device (the Tube Alloys project) and also that of the Manhattan Project on which Frisch worked as part of the British delegation. He went to America in 1943 having been hurriedly made a British citizen. In 1946 he returned to England to take up the post of head of the nuclear physics division of the Atomic Energy Research Establishment at Harwell, though he also spent much of the next thirty years teaching at Cambridge where he was Jacksonian Professor of Natural Philosophy and a fellow of Trinity College.

Before he retired he designed^[7] a device, SWEEPNIK, that used a laser and computer to measure tracks in Bubble chambers. Seeing that this had wider applications, he helped found a company, Laser-Scan Limited now known as 1Spatial, to exploit the idea.

Retirement

He retired from the chair in 1972 as required by University regulations^[7]. He died in 1979. His son, Tony Frisch, is also a physicist and in the 1980s worked for BT Labs. He currently has surviving relatives^{[citation needed]} in the United States of America including Adam Frisch, a former lobbyist in the state of Georgia.

External links

• Annotated bibliography for Otto Frisch from the Alsos Digital Library for Nuclear Issues
• Los Alamos National Laboratory on the British mission
• Oral History interview transcript with Otto Robert Frisch 8 May 1963, American Institute of Physics, Niels Bohr Library and Archives
• Oral History interview transcript with Otto Robert Frisch 3 May 1967, American Institute of Physics, Niels Bohr Library and Archives

References

1. ^ Otto R. Frisch & Otto Stern, Zeits. F. Physik, V85, p. 4 (1933).
2. ^ O. Hahn and F. Strassmann Über den Nachweis und das Verhalten der bei der Bestrahlung des Urans mittels Neutronen entstehenden Erdalkalimetalle (On the detection and characteristics of the alkaline earth metals formed by irradiation of uranium without neutrons), Naturwissenschaften Volume 27, Number 1, 11-15 (1939). The authors were identified as being at the Kaiser-Wilhelm-Institut für Chemie, Berlin-Dahlem. Received 22 December 1938.
3. ^ Lise Meitner and O. R. Frisch Disintegration of Uranium by Neutrons: a New Type of Nuclear Reaction, Nature, Volume 143, Number 3615, 239-240 (11 February 1939). The paper is dated 16 January 1939. The paper is dated 16 January 1939. Meitner is identified as being at the Physical Institute, Academy of Sciences, Stockholm. Frisch is identified as being at the Institute of Theoretical Physics, University of Copenhagen.
4. ^ O. R. Frisch Physical Evidence for the Division of Heavy Nuclei under Neutron Bombardment, Nature, Volume 143, Number 3616, 276-276 (18 February 1939). The paper is dated 17 January 1939. [The experiment for this letter to the editor was conducted on 13 January 1939; see Richard Rhodes The Making of the Atomic Bomb 263 and 268 (Simon and Schuster, 1986).]
5. ^ Otto R. Frisch, "The Discovery of Fission – How It All Began", Physics Today, V20, N11, pp. 43-48 (1967).
6. ^ J. A. Wheeler, "Mechanism of Fission", Physics Today V20, N11, pp. 49-52 (1967).
7. ^ ^{a b} Otto Frisch, "What Little I Remember", Cambridge University Press (1979), ISBN 0-521-40583-1

See also: Frisch

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