Hans attended secondary school in Göttingen but before completing his studies he left to work at Siemens-Schuckert in Berlin. This firm, set up in 1903 through the absorbing of the Nürnberg firm Schuckert & Co. by the Construction Firm of Siemens & Halske, took over Siemens power-engineering activities. Schwerdtfeger returned to Göttingen to complete his school education, then entered Göttingen University to study mathematics.
At Göttingen University Schwerdtfeger attended lectures by David Hilbert, Gustav Herglotz, Richard Courant, James Franck, Max Born and Bartel van der Waerden. After the award for his first degree from Göttingen, Schwerdtfeger went to Bonn University. There he was taught by Felix Hausdorff and Otto Toeplitz. His thesis advisor at Bonn was Toeplitz and, in 1934, he submitted his doctoral thesis Beiträge zum Matricen-Kalkül und zur Theorie der Gruppenmatrix Ⓣ. In the following year he married Hanna Maeder who was studying mathematics at Göttingen University. In fact Hanna later went on to become a mathematics lecturer. Of course during the years that Schwerdtfeger undertook research for his doctorate in Bonn, the political situation in Germany had changed markedly. Hitler had come to power in the Spring of 1933 and the Nazi party began to impose its ideas on the country. Aczél writes :-
Young men of such background [as Schwerdtfeger] were prime candidates for recruitment by the Nazis but, quite to the contrary, Hans Schwerdtfeger showed great courage as an outspoken critic of the regime.Opposition to the Nazis was of course extremely dangerous and ultimately would have meant that Schwerdtfeger would have been killed. However, realising the dangers of his position he fled from Germany in 1936 with his family. They settled first in Prague but in 1939, with World War II imminent, they left for Zürich, moved on to Grenoble and finally Toulon before escaping from war torn Europe and emigrating to Sydney in Australia. In 1940 he was appointed as a lecturer at the University of Adelaide, moving to the position of Senior Lecturer at the University of Melbourne. In 1957 he was appointed as an Associate Professor of Mathematics at McGill University in Montreal in Canada, and he was promoted to full Professor in 1960 :-
He continued to have strong convictions and opinions and did not hesitate to express them vigorously.He remained at McGill University until he retired in 1983 when he returned to Australia as a visiting Research Fellow at the University of Adelaide. Schwerdtfeger's son, Peter Schwerdtfeger, lived in Adelaide where he was Professor of Meteorology at Flinders University. Peter had been appointed Foundation Professor of Meteorology there in 1971 and worked on topics such as boundary layer meteorology and climatology.
We now look at some of his mathematical contributions. Aczél writes:-
His main fields of interest were Galois theory, matrix theory, theory of groups and their geometries and complex analysis. He achieved important results in all these fields.Schwerdtfeger began publishing mathematics papers after obtaining a position in Australia. His early papers include On generalized Hermitian matrices (1942), On contact transformations associated with the symplectic group (1942), Skew-symmetric matrices and projective geometry (1944), On the representation of rigid rotations (1945), and The Isoperimetric Problem (1945). This last publication resulted from a lecture he gave to the to the Adelaide University Mathematical Society and was published as a 14 page pamphlet. In 1950 Schwerdtfeger published his first major text aimed at beginning graduate students, Introduction to Linear Algebra and the Theory of Matrices. W Givens writes in a review:-
This valuable book is an introduction to the concepts of linear algebra and the theory of matrices which the author intends to supplement with another (shorter) volume including the elementary divisor theory. ... Admirable features of the book include a list of examples for solution, footnotes with historical notes, references to the original literature and to extensions of the topics treated, a geometric framework for the algebraic results, and a summary of the principal problems considered ... There are many detailed results not available elsewhere in a text at this level. ... the results are generally clear and accurate and the general impression made by the book is pleasing. Many graduate students, particularly those interested in applications, should find this a useful addition to the elementary literature of the subject.After moving to Canada, Schwerdtfeger published further important textbooks. In 1962 he published Geometry of complex numbers : Circle Geometry, Möbius Transformations, Non-Euclidean Geometry which:-
... should be in every library, and every expert in classical function theory should be familiar with this material. The author has performed a distinct service by making this material so conveniently accessible in a single book.In fact as a consequence of this book, a problem about Möbius transformations was proposed by Bert Schweizer. This problem, concerning the nature of subsets of the plane on which collinearity is only preserved by linear functions, gave rise to a substantial body of research.
Schwerdtfeger's other important textbook is Introduction to group theory (1976). The book concentrates on finite groups and leads the reader through many results which are given in the form of exercises.
Aczél writes in :-
He was an inspiring teacher, gratefully remembered by his students. He had a prominent role in revitalizing mathematics in Australia and was a focal point in the scientific and, with his wife Hanna, in the social life of McGill's Department of Mathematics. In addition to his research and teaching, he is remembered for his integrity, dignity, generosity and friendship.Schwerdtfeger was honoured with election to the Royal Society of Canada in 1964.
Article by: J J O'Connor and E F Robertson