Francis William Aston

Francis William Aston was a lifelong bachelor and led a socially active life. He was a keen golfer and along with Ernest Rutherford, Ralph Fowler and G.I. Taylor made a famous foursome. Swimming and tennis were also his favorite past time and he won many prizes in tennis tournaments.

In addition, he enjoyed different types of adventure sports like skiing, skating, rock climbing and surf riding. However, he stopped taking part in skiing in 193, after he grew a heart condition.

He loved travelling and would often go out on cycling tour. In addition to this, he loved music and could play piano, cello and violin.

Francis William Aston was born on 1 September 1877 in Harborne, Birmingham, United Kingdom. His father, William Aston, owned a small farm, which dealt in metal objects. His mother’s name was Fanny Charlotte Hollis. He was third of his parent’s seven children.

Francis started his education at Harborne Vicarage School. Later he was enrolled at Malvern College, a boarding school in Worcestershire and studied there for two years. It was at the Malvern College that he started developing interest in science and demonstrated special aptitude in physics, chemistry and mathematics.

In 1893, he entered Mason College in Birmingham.Here he studied physics under John Henry Poynting and chemistry under Percy F. Frankland and William A. Tilden. He graduated from there in 1896.

Aston next opened a private laboratory at his father’s house and started working on organic chemistry. Two years later, in 1998, he won Forster Scholarship and started working on optical properties of tartaric acid derivatives under Frankland. The paper on this work was published three years later in 1901.

Meanwhile in 1900, because of financial reasons, Aston left academics to start working as a fermentation chemist at W. Butler & Company Brewery in Wolverhampton. However, with the discovery of X-ray he began to develop interest in physics.

Aston now started designing a new type of pump for evacuating vessels and developed interest in its gas discharge. In 1903, he won another scholarship and returned to Mason College, which had been incorporated into the University of Birmingham. He now began to work as an associate of Poynting

Here Aston passed electric current through a gas filled tube and began to investigate the properties of Crookes Dark Space, which refers to the dark space found between the cathode glow and the negative glow in a vacuum tube.

Very soon he discovered a new phenomenon, later known as ‘Aston’s Dark Space’. It refers to a dark space between the cathode surface and the cathode glow. He found that because of inadequate velocity the emitted electrons cannot ionize the gas in this area and hence the dark spot.

His father died in 1908 leaving him a large inheritance. He now took a trip round the world and returned to the University of Birmingham to accept a post of lecturer in the beginning of 1909.

Towards the end of 1909, Aston received an invitation from J. J. Thompson, who had by now been credited with discovery of electrons, to work as his assistant at the Cavendish Laboratory at Cambridge. As the post would enable him to devote more time to research he gladly accepted it.

Construction of the original mass spectrograph was his first major work. The apparatus used electrostatic and magnetic fields to produce opposite deflections in the same plane. By focusing beams through minute slits a series of lines could be obtained. Each of these lines corresponded to a definite particle mass.

He used the mass spectrograph, which he kept on improving, to examine fifty different types of elements and finally discovered 212 naturally occurring isotopes out of 287 that have so far been identified. This is perhaps his most important work.

Apart from numerous papers he penned down two books as well. His first book ‘Isotopes’ (1922) was later reprinted as 'Mass Spectra and Isotopes' (1941). ‘Structural Units of the Material Universe’ published in 1923 is another of his important work.