John Arthur Todd

Born: 23 August 1908 in Liverpool, England
Died: 22 December 1994 in Croydon, England

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John Todd's father was John Arthur Todd (born in Bradford, Yorkshire about 1880) who was a Science Teacher and Demonstrator working for Liverpool City Council. His mother was Agnes Todd (born in Bingley, Yorkshire about 1878).

John Todd was educated at Liverpool Collegiate School and, having sat the scholarship examination for Cambridge, he was awarded an entrance scholarship to Trinity College. Entering Trinity in October 1925 he achieved distinction in an undergraduate career which ended with his graduation in 1928.

After graduation Todd remained at Trinity to study for his doctorate in geometry under H F Baker's supervision. He was supported by a research scholarship and, in 1930, he was awarded the highly prestigious Smith's Prize. Among his fellow students at Cambridge at this time were a number of others studying geometry including P du Val, H S M Coxeter and W L Edge.

After an impressive prize winning record Todd hoped for a Research Fellowship at Trinity but he failed in three attempts, on one occasion losing out to Coxeter who won the Fellowship.

Disappointed at his failure to win the Fellowship, Todd left Cambridge and accepted Mordell's offer of an assistant lectureship at the University of Manchester in 1931. An important year for Todd's mathematical development was the session 1933-34 which he spent at Princeton on a Rockefeller Scholarship. Lefschetz proved the major influence on Todd during this year in the United States, and this broadened Todd's geometrical interests beyond the classical approach he had learnt under Baker.

In until 1937 Todd was appointed a lecturer at Cambridge. Baker had retired from the Lowndean Chair in 1936 and the chair had been filled by Hodge. Todd and Hodge began to change the geometry at Cambridge to areas that were then of great interest internationally. However the outbreak of World War II meant that their reforms had to be delayed. Sadly, by the time peace had returned and progress could recommence, Todd was no longer a young reformer.

In 1948 Todd had been elected a Fellow of the Royal Society of London and, given his long association with Trinity College, it seemed inconceivable that he would not be elected a Fellow of the College. Despite strong backing by mathematicians in the College, Todd failed to on a number of occasions to be elected. As Atiyah writes in [1]:-
Unfortunately, opposition in other quarters, based no doubt on the perception of Todd as socially gauche, was too strong.
By 1958 disillusioned with his treatment by Trinity, Todd went to Downing College. He became a reader in 1960 and taught in Cambridge until he retired in 1973. His time at Downing became a happier period in his life as the following extract from the Downing College Magazine indicates:-
When first he arrived ... he was withdrawn and difficult to get to know; perhaps his essentially donnish and reclusive nature had not been helped in that regard by Trinity's not having embraced its own. But ... he grew into an active and genuinely loved person. To his pupils, we think he seemed a benevolent if mildly austere godfather, complete, or perhaps replete, with pipe and moustache. ... He needed friendship; he found it and gave it as a Fellow. ... Every well-equipped College should have a John Todd and we were privileged to have had him and to have enjoyed his company.
Atiyah in [1] divides Todd's mathematical interests into invariant theory, group theory and canonical systems. He writes:-
In each case there is a major algebraic component but, as represented in Todd's work, the essential insight, interest and emphasis was on the geometric meaning behind the formula. Todd was a superb technician and manipulator of formulae but he also brought to bear a keen appreciation of the underlying geometry.
Todd generalised the arithmetic genus and the invariants of the canonical system on an algebraic variety to a system of invariants of every codimension. This work is the origin of the Todd genus and Todd polynomials which were named after him. Todd polynomials, and certain other closely related polynomials, are much studied today and have played a major role in the study and classification of manifolds.

In group theory Todd provided, certainly according to Coxeter, the main contribution to their joint work on the Todd-Coxeter procedure which they published in 1936. The procedure, today much used in computer implementations, enumerates the cosets of a subgroup of finite index in a finitely presented group. Coxeter explained to me [EFR] once how Todd used the back of old rolls of wallpaper on which to enumerate cosets which he could do at the rate of about 200 an hour. The Todd-Coxeter procedure became the most fundamental idea in the development of computational group theory yet the authors found difficulty in getting their paper published. Certainly several referees failed to recognise the importance of this new idea.

I [EFR] do recall one occasion which saddened me greatly. It was at a British Mathematical Colloquium (Todd attended the Colloquium for each one of its first 25 years) where Todd talked on Mathieu groups, a subject to which he made considerable contributions. Some young research students in the audience heckled Todd, presumably they considered his mathematics old fashioned.

After Todd retired, to the surprise of his colleagues, he married. He also seemed to give up his mathematical work at that time but he had other interests to occupy his time such as stamp collecting and music.

Article by: J J O'Connor and E F Robertson

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A Reference (One book/article)

A Poster of John Todd

Mathematicians born in the same country

Additional Material in MacTutor

  1. An entry in The Mathematical Gazetteer of the British Isles
  2. Obituary: Royal Society
Honours awarded to John Todd
(Click the link below for those honoured in this way)

1. Fellow of the Royal Society  1948
2. BMC morning speaker  1954
3. LMS President  1957 - 1969

Cross-references in MacTutor

  1. History Topics: The abstract group concept
  2. Canadian Mathematical Society

Other Web sites
  1. Mathematical Genealogy Project
  2. MathSciNet Author profile
  3. zbMATH entry
  4. ERAM Jahrbuch entry

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