1922 Nobel Laureate in Chemistry
Francis William Aston,
British physicist who won the Nobel Prize for Chemistry in 1922 for his
development of the mass spectrograph, a device that separates atoms or molecular
fragments of different mass and measures those masses with remarkable accuracy.
Aston used the mass spectrograph to discover a large number of nuclides,
or nuclear species that differ in mass. The mass spectrograph is widely
used in geology, chemistry, biology, and nuclear physics. Selected works Biography: Francis
William Aston was born in September 1877 at Harborne, Birmingham, England,
the third of a family of seven children. He was educated at
Harborne Vicarage School and Malvern College where his interest in science
was aroused. In 1894 he entered Mason College, Birmingham (later to become
the University of Birmingham) where he studied chemistry under Frankland
and Tilden, and Physics under Poynting. His winning of the Forster Scholarship
in 1898 enabled him to work on the optical properties of tartaric acid
derivatives; the results of this work were published in 1901. Leaving
academic life for a time, he worked for three years as a chemist in the
laboratory of a brewery. At about this time,
however, his interest in physics, rather than chemistry, began to predominate;
his aptitude for mechanical contrivance showed itself in his design and
construction of new types of pumps for evacuating vessels. From this stemmed
his interest in gas discharge phenomena in evacuated tubes. In 1903 he
obtained a scholarship to Birmingham University (as it had now become)
to work on the properties of the Crookes Dark Space in discharge tubes.
Within a short time he had discovered the phenomenon which is known as
the Aston Dark Space. At the end of 1909 he accepted the invitation of
Sir J.J.Thomson to work as his assistant at the Cavendish Laboratory,
Cambridge, on studies of positive rays. It was during this period that
he obtained definite evidence for the existence of two isotopes of the
inert gas neon. This research was
interrupted by the War of 1914-1918, during which time Aston worked at
the Royal Aircraft Establishment, Farnborough, where he studied the effect
of atmospheric conditions on aeroplane fabrics and dopes (i.e. synthetic
coatings). Returning to the Cavendish Laboratory in 1919, he again attacked
the problem of the separation of the isotopes of neon. He quickly achieved
success in this by his invention of the mass spectrograph, an apparatus
in which the ingenious use of electromagnetic focusing enabled him to
utilize the very slight differences in mass of the two isotopes to effect
their separation. Extending this principle to other chemical elements,
he discovered, in a series of measurements, no less than 212 of the naturally
occurring isotopes. From the results of this work he was able to formulate
the so-called Whole Number Rule which states that, the mass of the oxygen
isotope being defined, all the other isotopes have masses that are very
nearly whole numbers. Aston continued to make measurements, using an improved
instrument, with ever-increasing refinement and precision. He observed
and was able to measure those deviations from the Whole Number Rule which
were to become so important in the field of atomic energy. The results of his
work were published in the Proceedirngs of the Royal Society and in the
Philosophical Magazine. He was also the author of the books Isotopes (1922;
revised edition 1941) and of Structural Units of the Material Uriverse
(1923). Aston was elected to a Fellowship at Trinity College in 1920,
in which year he also received the Mackenzie Davidson Medal of the Rontgen
Society. In 1921 he was made a Fellow of the Royal Society and was awarded
the Society's Hughes Medal the following year, the same year that he received
the Nobel Prize. The John Scott and the Paterno medals were given to him
in 1923, the Royal medal in 1938, and he was Duddell medalist of the Physical
Society in 1941. He was an honorary
member of the Russian Academy of Sciences and of the Accademia dei Lincei,
and held honorary doctorates ofthe Universities of Birmingham and Dublin.
Aston, a bachelor, was an enthusiastic sportsman; skiing, rockclimbing,
tennis and swimming were among the sports in which he excelled. He was
also keen musician, playing the piano, violin and the cello. He died at
Cambridge on November 20, 1945.
Aston was trained as a chemist, but, upon the rebirth of physics
following the discovery of X rays in 1895 and of radioactivity in 1896,
he began in 1903 to study the creation of X rays by the flow of current
through a gas-filled tube. In 1910 he became an assistant to Sir J.J.
Thomson at Cambridge, who was investigating positively charged rays
emanating from gaseous discharges. During Aston's assistantship Thomson
obtained, from experiments with neon, the first evidence for isotopes
(atoms of the same element that differ in mass) among the stable
(nonradioactive) elements.