The Institute for Radium Research is an Austrian research institute associated with the Austrian Academy of Sciences, Vienna. The Institute's researchers won multiple Nobel Prizes. Due to the gradual change of interests, "nuclear physics" was added to the institute's name in 1956. Since 2004, it is called the Stefan-Meyer-Institute for subatomic physics. [1]
The Sankt Joachimsthal mines were located within the Austria-Hungary monarchy, and were the largest producers of uranium containing ore at the end of the 19th century. Eduard Suess sent the first samples of pitchblende to Pierre and Marie Curie for their research on radioactive materials. This action was taken after the advice of Franz Serafin Exner. [2] After the discovery of radium, the Austrian industrial Karl Kupelwieser donated 500,000 Austrian kronen to found an institute for research on radium in 1908. After constructing the building for the institute in 1909–1910, the institute was opened on 28 October 1910. Stefan Meyer became the first acting director, and Franz Serafin Exner was the director of the institute until Meyer took over in 1920. Meyer stayed in that position until the Anschluss Österreichs in 1938, the annexation of Austria by Nazi Germany, forced him to retire due to his Jewish ancestors. [2] [3] After the war, he was reinstated as director and performed his duties until his retirement in 1947. [4] The starting years were dominated by the research on the new element radium. Meyer was able to organize the production of 4 gram radium, as recommended in 1901 by the Austrian Academy of Sciences. The chemical plant of Carl Auer von Welsbach, which was used to produce rare-earth elements, provided the necessary technical equipment and knowledge required for separation of small quantities of material from ore. [2] This relative large amount made it possible for Otto Hönigschmid to determine the molecular mass of radium using 1.5 g of radium bromide.
Victor Franz Hess was working on the absorption of gamma rays in the atmosphere. His discovery of cosmic rays in 1912, which was rewarded by the Nobel Prize in 1936, was a direct result of his work in the institute. [2] [5] [6]
George de Hevesy and Friedrich Adolf Paneth developed at the Institute the radioactive tracers method, for which Hevesy received the Nobel Prize in 1943. [2] Initially, very few women scientists worked at the Institute, including Berta Karlik and Marietta Blau; however, the percentage of women reached 30% during the time of Meyer. [2] [7] From 1945 to 1974, Berta Karlik directed the Institute. [1] In 1955, Karlik became professor for nuclear physics at the University of Vienna, so that the Institute was now both an Academy and a University Institute. Herbert Vonach succeeded her as director from 1974 to 1986. [3]
The institute was renamed in 1956, so that "nuclear physics" was now included in the title - corresponding to the widened research interests. In 1987, the institute was converted into an "Institute for Intermediate Energy Physics" under the direction of W. H. Breunlich. [1] [8]
On 28 May 2015, the Institute received the title "Historic Site" by the European Physical Society. [9]
There are now two separate successor organisations:
Carl Auer von Welsbach, who received the Austrian noble title of Freiherr Auer von Welsbach in 1901, was an Austrian scientist and inventor, who separated didymium into the elements neodymium and praseodymium in 1885. He was also one of three scientists to independently discover the element lutetium, separating it from ytterbium in 1907, setting off the longest priority dispute in the history of chemistry.
Friedrich Adolf Paneth was an Austrian-born British chemist. Fleeing the Nazis, he escaped to Britain. He became a naturalized British citizen in 1939. After the war, Paneth returned to Germany to become director of the Max Planck Institute for Chemistry in 1953. He was considered the greatest authority of his time on volatile hydrides and also made important contributions to the study of the stratosphere.
Franz Serafin Exner was an Austrian physicist and professor at the University of Vienna. He is known for pioneering physical chemistry education in Austria. The early introduction to university curricula of subjects such as radioactivity, spectroscopy, electrochemistry electricity in the atmosphere, and color theory in Austria are often credited to him.
Marietta Blau was an Austrian physicist credited with developing photographic nuclear emulsions that were usefully able to image and accurately measure high-energy nuclear particles and events, significantly advancing the field of particle physics in her time. For this, she was awarded the Lieben Prize by the Austrian Academy of Sciences. As a Jew, she was forced to flee Austria when Nazi Germany annexed it in 1938, eventually making her way to the United States. She was nominated for Nobel Prizes in both physics and chemistry for her work, but did not win. After her return to Austria, she won the Erwin Schrödinger Prize from the Austrian Academy of Sciences.
Hertha Wambacher was an Austrian physicist.
Willibald Jentschke was an Austrian-German experimental nuclear physicist.
Egon Schweidler, was an Austrian physicist.
Josef Mattauch was a nuclear physicist and chemist. He was known for the development of the Mattauch-Herzog double-focusing mass spectrometer, for his work on the investigation of isotopic abundances using mass spectrometry, and the determination of atomic weights. Much of his career was spent at the Kaiser Wilhelm Institute for Chemistry.
Wolfgang Gentner was a German experimental nuclear physicist.
Josef 'Sepp' Schintlmeister was an Austrian-German nuclear physicist and alpinist from Radstadt. During World War II, he worked on the German nuclear energy project, also known as the Uranium Club. After World War II, he was sent Russia to work on the Soviet atomic bomb project. After he returned to Vienna, he took positions in East Germany. He was a professor of physics at the Technische Hochschule Dresden as well holding a leading scientific position at the Rossendorf Central Institute for Nuclear Research.
Georg Carl Stetter was an Austrian-German nuclear physicist. Stetter was Director of the Second Physics Institute of the University of Vienna. He was a principal member of the German nuclear energy project, also known as the Uranium Club. In the latter years of World War II, he was also the Director of the Institute for Neutron Research. After the war, he was dismissed from his university positions, and he then became involved in dust protection research. After his dismissal was overturned, he became Director of the First Physics Institute of the University of Vienna, and he began research on aerosols. In 1962, Stetter became a full Member of the Austrian Academy of Sciences. In that same year, the Academy established their Commission for Clean Air, and Stetter served as its chairman until 1985.
The Institute for Quantum Optics and Quantum Information (IQOQI) (German: Institut für Quantenoptik und Quanteninformation) is a member institute of the Austrian Academy of Sciences and was founded in November 2003, to create an Austrian research center for the newly developing fields of theoretical and experimental quantum optics and quantum information.
Berta Karlik was an Austrian physicist. She worked for the University of Vienna, eventually becoming the first female professor at the institution. While working with Ernst Foyn she published a paper on the radioactivity of seawater. She discovered that the chemical element 85 astatine is a product of the natural decay processes. The element was first synthesized in 1940 by Dale R. Corson, K. R. MacKenzie, and Emilio Segrè, after several scientists in vain searched for it in radioactive minerals.
Felix Ehrenhaft was an Austrian physicist who contributed to atomic physics, to the measurement of electrical charges and to the optical properties of metal colloids. He was known for his maverick and controversial style. His iconoclasm was greatly admired by philosopher Paul Feyerabend. He won the Haitinger Prize of the Austrian Academy of Sciences in 1917.
Karl Lintner was an Austrian nuclear physicist. During World War II, he worked on the German nuclear energy project, also known as the Uranium Club; he did research on the inelastic dispersion of fast neutrons in uranium. After the war, he taught and did nuclear research at the University of Vienna. He was a full member of the Austrian Academy of Sciences.
Heinz Maier-Leibnitz was a German physicist. He made contributions to nuclear spectroscopy, coincidence measurement techniques, radioactive tracers for biochemistry and medicine, and neutron optics. He was an influential educator and an advisor to the Federal Republic of Germany on nuclear programs.
Stefan Meyer was an Austrian physicist involved in research on radioactivity. He became director of the Institute for Radium Research in Vienna and received the Lieben Prize in 1913 for his research on radium. He was the brother of Hans Leopold Meyer who was also awarded the Lieben Prize.
Helmut Rauch was an Austrian physicist. He was especially known for his pioneering experiments on neutron interference.
Elizabeth Rona was a Hungarian nuclear chemist, known for her work with radioactive isotopes. After developing an enhanced method of preparing polonium samples, she was recognized internationally as the leading expert in isotope separation and polonium preparation. Between 1914 and 1918, during her postdoctoral study with George de Hevesy, she developed a theory that the velocity of diffusion depended on the mass of the nuclides. As only a few atomic elements had been identified, her confirmation of the existence of "Uranium-Y" was a major contribution to nuclear chemistry. She was awarded the Haitinger Prize by the Austrian Academy of Sciences in 1933.
The Haitinger Prize of the Austrian Academy of Sciences was founded in 1904 by the chemist and factory director, Ludwig Camillo Haitinger (1860–1945), who created the award in honor of his father, Karl Ludwig Haitinger. From 1905 to 1943 it was awarded every year, for "studies in chemistry and physics that proved to be of great practical use for industrial applications". The prize was awarded for the last time in the year 1954.