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January
Important historic dates in science

January 31: Rudolf Ludwig Mössbauer
(Born January 31, 1929)
German physicist and winner, with Robert Hofstadter of the United States, of the Nobel Prize for Physics in 1961 for his researches concerning the resonance absorption of gamma-rays and his discovery in this connection of the Mössbauer effect. The Mössbauer effect occurs when gamma rays emitted from nuclei of radioactive isotopes have an unvarying wavelength and frequency. This occurs if the emitting nuclei are tightly held in a crystal. Normally, the energy of the gamma rays would be changed because of the recoil of the radiating nucleus. Mössbauer's discoveries helped to prove Einstein's general theory of relativity. His discoveries are also used to measure the magnetic field of atomic nuclei and to study other properties of solid materials.

January 30: Atomic bomb
In 1950, development of the hydrogen fusion bomb (H-bomb) was ordered by U.S. President Truman. The codename of "Super" for the project reflected the far greater power of this thermonuclear device over the earlier fission bombs used to end WW II.

January 29: Abdus Salam
(Born January 29, 1926: Died November 21, 1996)
Pakistani nuclear physicist who shared the 1979 Nobel Prize for Physics with Steven Weinberg and Sheldon Lee Glashow. Each had independently formulated a theory explaining the underlying unity of the weak nuclear force and the electromagnetic force. His hypothetical equations, which demonstrated an underlying relationship between the electromagnetic force and the weak nuclear force, postulated that the weak force must be transmitted by hitherto-undiscovered particles known as weak vector bosons, or W and Z bosons. Weinberg and Glashow reached a similar conclusion using a different line of reasoning. The existence of the W and Z bosons was eventually verified in 1983 by researchers using particle accelerators at CERN.

January 28: Atomic power
In 1958, the first privately-owned thorium-uranium atomic reactor to supply power began construction. It was the first reactor designed to supplement fissionable uranium-235 with fertile thorium-232. This was the Indian Point nuclear generating station, built at Buchanan, New York, at a cost of $100 million. It was a pressurized water reactor able to produce 275,000 kilowatts of power. The design and construction was executed by the Babcock and Wilcox Co. for the Consolidated Edison Co. The Indian Point 1 operating licence was dated 26 Mar 1962 and its shutdown date was 31 Oct 1974.

January 27: Samuel C.C. Ting
(Born January 27, 1936)
Samuel Chao Chung Ting is an American physicist who shared, with Burton Richter, the Nobel Prize for Physics in 1976 for his discovery of a new subatomic particle, the J/psi particle.

January 26: Cyclotron
In 1932, the US Patent Office recieved a patent application for the cyclotron by Ernest Orlando Lawrence. By 1939, this atom-smashing instrument won the Nobel Prize for its inventor.

January 25: Atomic clock
In 1955, Columbia University scientists developed an atomic clock accurate to within one second in 300 years.

January 24: Harold Delos Babcock
(Born January 24, 1882: Died April 8, 1968)
American astronomer who with his son, Horace, invented the solar magnetograph (1951), for detailed observation of the Sun's magnetic field. With their magnetograph the Babcocks measured the distribution of magnetic fields over the solar surface to unprecedented precision and discovered magnetically variable stars. In 1959 Harold Babcock announced that the Sun reverses its magnetic polarity periodically. Babcock's precise laboratory studies of atomic spectra allowed others to identify the first "forbidden" lines in the laboratory and to discover the rare isotopes of oxygen. With C.E. St. John he greatly improved the precision of the wavelengths of some 22,000 lines in the solar spectrum, referring them to newly-determined standards.

January 23: Marie Curie loses membership
In 1911, Marie Curie's nomination to the French Academy of Sciences, having already won one Nobel Prize, is nevertheless voted down by the Academy's all-male membership. She went on to win a second Nobel Prize.

January 22: Albert Wallace Hull
(Born April 19, 1880: Died January 22, 1966)
American physicist who independently discovered the powder method of X-ray analysis of crystals (1917), which permits the study of crystalline materials in a finely divided microcrystalline, or powder, state. His first work was on electron tubes, X-ray crystallography, and (during WW II) piezoelectricity. In the 1920's, he studied noise measurements in diodes and triodes. In the 1930's, he also took interest in metallurgy and glass science. His best-known work was done after the war, especially his classic paper on the effect of a uniform magnetic field on the motion of electrons between coaxial cylinders. He also invented the magnetron (1921) and the thyratron (1927), and other electron tubes with wide application as components in electronic circuits.

January 21: Atomic submarine
In 1954, the first atomic submarine, the U.S.S. Nautilus, was launched at Groton, Connecticut. Nautilus' nuclear propulsion system was a landmark in the history of naval engineering and submersible craft. All vessels previously known as "submarines" were in fact only submersible craft. Because of the nuclear power plant, the Nautilus could stay submerged for months at a time, unlike diesel-fueled subs, whose engines required vast amounts of oxygen. Nautilus demonstrated her capabilities in 1958 when she sailed beneath the Arctic icepack to the North Pole. Scores of nuclear submarines followed Nautilus, replacing the United States' diesel boat fleet. After patrolling the seas until 1980, the Nautilus is back home at Groton.

January 20: X-rays
In 1896, X-rays were first used in a clinical setting, both in America and in Gemany.

January 19: Johann Elert Bode
(Born January 19, 1747: Died November 23, 1826)
German astronomer best known for his popularization of Bode's law. In 1766, his compatriot Johann Titius had discovered a curious mathematical relationship in the distances of the planets from the sun. If 4 is added to each number in the series 0, 3, 6, 12, 24,... and the answers divided by 10, the resulting sequence gives the distances of the planets in astronomical units (earth = 1). Also known as the Titius-Bode law, the idea fell into disrepute after the discovery of Neptune, which does not conform with the 'law' - nor does Pluto. Bode was director at the Berlin Observatory, where he published Uranographia (1801), one of the first successful attempts at mapping all stars visible to the naked eye without any artistic interpretation of the stellar constellation figures.

January 18: X-ray machine displayed
In 1896, The first x-ray machine is exhibited in the U.S. at Casino Chambers, New York City. For an admission charge of 25 cents, patrons could view the "Parisian sensation."

January 17: Synchrotron
In 1949, for the first time, full energy was released by the first synchrotron which was installed at the Radiation Laboratory, University of California, Berkeley. It was invented by Edwin Mattison of the same university, and would accelerate electrons by virtue of their negative charges, using a betatron-type magnet that weighed about 8 tons. The synchrotron was constructed at the General Electric Research Laboratory at Schnectady, N.Y. by Dr. Herbert C. Pollock and Willem F. Westendorp.

January 16: Sir Arthur Percy Morris Fleming
(Born January 16, 1881: Died September 14, 1960)
English engineer who was a major figure in developing techniques for manufacturing radar components. During WW I, Fleming made important advances in submarine-detection gear. In 1920, as a pioneer in the development of radio, he established in Manchester the second British transmitting station to broadcast programs on a daily basis. His work on demountable, high-power thermionic tubes made it possible to establish radar stations in Great Britain by the time WW II began in 1939.

January 15: Edward Teller
(Born January 15, 1908: Died September 9, 2003)
Hungarian-born American nuclear physicist who participated in the production of the first atomic bomb (1945) and who led the development of the world's first thermonuclear weapon, the hydrogen bomb. After studying in Germany he left in 1933, going first to London and then to Washington, DC. He worked on the first atomic reactor, and later working on the first fission bombs during WW II at Los Alamos. Subsequently, he made a significant contribution to the development of the fusion bomb. His work led to the detonation of the first hydrogen bomb (1952). He is sometimes known as "the father of the H-bomb." Teller's unfavourable evidence in the Robert Oppenheimer security-clearance hearing lost him some respect amongst scientists

January 14: Ernst Abe
(Born January 23, 1840: Died January 14, 1905)
German physicist who made theoretical and technical innovations in optical theory. He improved microscope design, such as the use of a condenser lens to provide strong, even illumination (1870). His optical formula, now called the Abbe sine condition, applies to a lens to form a sharp, distortion-free image He invented the Abbe refractometer for determining the refractive index of substances. In 1866, he joined Carl Zeiss' optical works, later became his partner in the company, and in 1888 became the owner of the company upon Zeiss' death. Concurrently, he was appointed professor at the Univ. of Jena in 1870 and director of its astronomical and meteorological observatories in 1878.

January 13: Wilhelm Wien
(Born January 13, 1864: Died August 30, 1928)
German physicist who received the Nobel Prize for Physics in 1911 for his displacement law concerning the radiation emitted by the perfectly efficient blackbody (a surface that absorbs all radiant energy falling on it). While studying streams of ionized gas Wien, in 1898, identified a positive particle equal in mass to the hydrogen atom. Wien, with this work, laid the foundation of mass spectroscopy. J J Thomson refined Wien's apparatus and conducted further experiments in 1913 then, after work by E Rutherford in 1919, Wien's particle was accepted and named the proton. Wien also made important contributions to the study of cathode rays, X-rays and canal rays.

January 12: Nuclear test
In 1965, at 10:58 a.m. PST, scientists conducted what they called a "controlled excursion", burning up a nuclear rocket in Nevada. It produced a radioactive cloud over Los Angeles.

January 11: Isidor Isaac Rabi
(Born July 29, 1898: Died January 11, 1988)
Isidor Isaac Rabi was American physicist who was awarded the Nobel Prize for Physics in 1944 for his invention (in 1937) of the atomic and molecular beam magnetic resonance method of measuring magnetic properties of atoms, molecules, and atomic nuclei. He spent most of his life at Columbia University (1929-67), where he performed most of his pioneering research in radar and the magnetic moment associated with electron spin in the 1930s and 1940s. His Nobel-winning work led to the invention of the laser, the atomic clock, and diagnostic uses of nuclear magnetic resonance. He originated the idea for the CERN nuclear research center in Geneva (founded 1954).

January 10: Nuclear arsenal
1994 Ukraine says it will give up world's 3rd largest nuclear arsenal

January 9: Hydrogen bomb
In 1953 President Truman announces development of the hydrogen bomb.

January 8: Galileo Galilei
(Born February 15, 1564: Died January 8, 1642)
Italian natural philosopher, astronomer, and mathematician who applied the new techniques of the scientific method to make significant discoveries in physics and astronomy. His great accomplishments include perfecting (though not inventing) the telescope and consequent contributions to astronomy. He studied the science of motion, inertia, the law of falling bodies, and parabolic trajectories. His formulation of the scientific method parallel the writings of Francis Bacon. His progress came at a price, when his ideas were in conflict with religious dogma.

January 7: Alfred Kastler
(Born May 3, 1902: Died January 7, 1984)
French physicist who won the Nobel Prize for Physics in 1966 for his discovery and development of methods for observing Hertzian resonances within atoms. This research facilitated the greater understanding of the structure of the atom by studying the radiations that atoms emit when excitated by light and radio waves. He developed a method called "optical pumping" which caused atoms in a sample substance to enter higher energy states. This idea was an important predecessor to the development of masers and the lasers which utilized the light energy that was reemitted when excited atoms released the extra energy obtained from optical pumping.

January 6: Pavel Alekseyevich Cherenkov
(Born July 15, 1904: Died January 6, 1990)
Soviet physicist who discovered Cherenkov radiation (1934), a faint blue light emitted by electrons passing through a transparent medium when their speed exceeds the speed of light in that medium. Fellow Soviet scientists Igor Y. Tamm and Ilya M. Frank investigated the phenomenon from which the Cherenkov counter was developed. Extensive use of this Cherenkov detector was later made in applications of experimental nuclear and particle physics. For their work, the trio shared the 1958 Nobel Prize for Physics.

January 5: Max Born
(Born December 11, 1882: Died January 5, 1970)
German physicist, winner of the Nobel Prize for Physics in 1954, with Walther Bothe of Germany, for his statistical formulation of the behaviour of subatomic particles. His studies of the wave function led to the replacement of the original quantum theory, which regarded electrons as particles, with a mathematical description.

January 4: Erwin Schrödinger
(Born August 12, 1887: Died January 4, 1961)
Austrian theoretical physicist who extended the theory of de Broglie waves to describe the structure of the atom, validating the wave theory of matter and contributing fundamentals of quantum mechanics. For his work, he was awarded a shared of the 1933 Nobel Prize for Physics with the British physicist P.A.M. Dirac.

January 3: Charles Augustus Young
(Born December 15, 1834: Died January 3, 1908)
American astronomer who made the first observations of the flash spectrum of the Sun, proved the gaseous nature of the sun's corona and discovered the reversing layer of the solar atmosphere. He was a pioneer in the study of the spectrum of the sun and experimented in photographing solar prominences in full sunlight. On December 22, 1870 at the eclipse in Spain, he saw the lines of the solar spectrum all become bright for perhaps a second and a half (the "flash spectrum") and announced the "reversing layer." By exploring from the high altitude of Sherman, Wy. (1872), he more than doubled the number of bright lines he had observed in the chromosphere, By a comparison of observations, he concluded that magnetic conditions on the earth respond to solar disturbances.

January 2: Dixy Lee Ray
(Born September 3, 1914: Died January 2, 1994)
(Margaret Ray) American marine biologist whose interests extended to the environment and the need for greater public understanding of science. A year after appointment to the Atomic Energy Commission, she became its first female chair (1973-75) and championed nuclear power plant construction. On November 2, 1976 Ray won election as the first woman to be governor of Washington state. In her single term as governor, Ray generated more controversy than accomplishments, advocating reductions in environmental protections, and supporting nuclear power. She feuded with aides and refused to close the Hanford nuclear dump. She was featured on the cover of Time issue of December 12, 1977.

January 1: Harriet Brooks
(Born January 1, 1876: Died April 17, 1933)
Canadian nuclear physicist who was probably the first to observe the recoil of the atomic nucleus as nuclear particles were emitted during radioactive decay. During the years 1901-05, she contributed much to the new science of radioactivity. Working with Rutherford, she measured the rate at which radium released radon (and other gases) into the air. They demonstrated that the diffusion of the emanations of radium both behaved like a a gas, and that this gas had a high (over 100) molecular weight. Rutherford credited her work identifying the release of radon as crucial to developing his theory of the transmutation of one element into another. She died at the age of 56, from leukemia or a like disease related to radiation exposure.

 

Photos courtsey of Today in Science