It was at the primary school that was part of the Escolar de Girona that Luis began his education. He was a shy but very bright pupil and as he grew up he exhibited a special ability to solve mathematical problems. At the secondary school he was taught mathematics by Lorenzo González Calzada, and Luis always appreciated his excellent teaching. Two of his fellow pupils were Jaume Vicens Vives and Santiago Sobrequés, both of whom became well-known historians. Luis completed his Baccalaureate in 1927, when he was sixteen years old, but was undecided whether he should study Civil Engineering at the University of Barcelona or Exact Sciences at the Complutense University of Madrid.
Santaló, perhaps influenced by his older brother Marcel who was studying mathematics at Madrid, moved to Madrid entering the Complutense University of Madrid. He lived in a university residence which provided an excellent intellectual environment and he took mathematics courses taught by, among others, Julio Rey Pastor and Esteban Terrades i Illa both of whom had a major influence on him. Esteban Terrades (1883-1950) had been appointed to the chair of Differential Equations in Madrid in 1932. Rey Pastor had by this time a permanent position in Argentina but made regular return visits to Spain to teach courses. Santaló completed his studies in Madrid in 1934, having undertaken in parallel his part-time military service, and was awarded a Degree in Mathematics.
After graduating, Santaló took up a position as a mathematics teacher at the Lope de Vega Institute, a middle school in Madrid. However, he was advised by Rey Pastor to continue his studies in Germany, and Rey Pastor helped arrange a scholarship which enabled Santaló to go to Hamburg to work with Wilhelm Blaschke. The Nazis under Hitler were in power in Germany by this time and Santaló felt very uncomfortable in the atmosphere that they were creating. However, the mathematics he was introduced to by Blaschke he found very exciting. Shiing-shen Chern writes :-
Integral geometry was the name coined by Wilhelm Blaschke in 1934 for the classical subject of geometric probability. During that year Luis Santaló came to Hamburg from Madrid and I [S S Chern] from China, and we sat in Blaschke's course on geometric probability. The main reference was an "Ausarbeitung" of a course by the same name given by G Herglotz in Göttingen. At the end of 1934 Luis Santaló found his now famous proofs of the isoperimetric inequality in the plane and Blaschke himself found the fundamental kinematic formula and started a series of papers under the general title of "integral geometry". It was a fruitful and enjoyable year for all concerned.Santaló returned to Madrid and submitted his thesis Nuevas aplicaciones al concepto de medida cinemática en el plano y en el espacio to the University of Madrid and was awarded a doctorate in 1936. He was still in Madrid, enjoying a holiday, when the outbreak of the civil war caused major disruption to his career.
Spain was plunged into a civil war in July 1936. The war began with a military coup against the left-wing Popular Front government which had been elected near the beginning of 1936. This coup did not achieve a quick success and the country was split between the Republicans, who were loyal to the left-wing democratically elected government, and the Nationalist led by the fascist General Francisco Franco. Santaló left Madrid and returned to his home town of Girona where he joined the Republican air force. He was sent first to the pilot school in Murcia, then to Barcelona to the School of Military Aviation, directed by Josep Canudas. There he attained the rank of Captain. Although the Spanish Civil War is known as a civil war, in fact the Nationalist side was supported by both Germany and Italy who supplied both air power and troops. The war raged on with the Republicans slowly losing territory and by the middle of 1938 they held two areas which were not connected. By early 1939 the Republicans were defeated and Santaló together with many of his fellow soldiers and civilian refugees, escaped from Barcelona to France. The journey was horrific in extremely harsh winter weather.
Santaló was now one of around 500,000 Spanish refugees in France but they were not welcomed there, especially the Republican soldiers. In fact Santaló was sent to a concentration camp at Argeles sur Mer but managed to escape to Colliure from where he wrote to Rey Pastor and Blaschke asking for help. Given the political situation, Blaschke knew that Germany was no place to invite Santaló to come, so he wrote to Élie Cartan who invited Santaló to Paris where, in March 1939, he delivered three lectures at the Institut Henri Poincaré on integral geometry and geometric probabilities. Unable to return to Spain, he went to Portugal, arriving in Lisbon. There he learnt that World War II had just started but that Portugal had announced its intention to remain neutral. Santaló knew that many of his fellow Republicans had, after fleeing to France, been shipped to South America. He was also aware that Rey Pastor was in Argentina and had strongly advised him to do the same. He decided to emigrate to Argentina, and arrived in the port of Buenos Aires on 12 October 1939. On arrival he was met by another Spanish mathematician, Manuel Balanzat (1912-1994), who had arrived in Argentina after a similar experience to Santaló, having fled to France at the end of the Spanish Civil War and from there sailing to Argentina. Julio Rey Pastor had arranged for Balanzat to meet Santaló when his ship arrived in Buenos Aires. This began a friendship between Santaló and Balanzat which lasted throughout their lives.
Once in Argentina, Santaló went to the city of Rosario in the Province of Santa Fe, on the banks of the Rio Paraná where Rey Pastor had arranged for him to be appointed to the National University of the Littoral. Founded in 1889 as the Provincial University of Santa Fe, it became the National University of the Littoral in 1919. Santaló taught courses in the Faculty of Mathematical, Physical-Chemical and Natural Sciences Applied to Industry which was at that time about to set up a Mathematical Institute. The head of this new Mathematical Institute was the 64 year old Beppo Levi who had been dismissed from his chair of the theory of functions at the University of Bologna due to Mussolini's July 1938 anti-Semitic Manifesto of Race which removed Italian citizenship from Jews and banned them from jobs in education. Beppo Levi had emigrated to Argentina with his wife and two daughters to take up the position as head of the new Mathematical Institute of the National University of the Littoral. Santaló was appointed as Principal Investigator and Deputy Director of the Institute, positions he held for ten years from 1939 to 1949.
Remarkably, although Beppo Levi was 64 when he took up the positions of professor and director of the Mathematical Institute in Rosario, he was able to continue to teach, undertake research and undertake administrative duties for a further 20 years. Hence Levi was there for ten years after Santaló left but the two would continue to collaborate.
While in Rosario, Santaló met Hilda Rossi, who was of Swiss descent, and they were married in 1945. Also while in Rosario, their daughter Maria Inés (known as Tessi) was born in 1947. She was the first of their three children, the other two being Alicia and Claudia.
With a grant to study differential geometry from the Guggenheim Foundation he spent the academic year 1948-49 at Princeton accompanied by his wife and daughter. There he met Albert Einstein, John von Neumann, Deane Montgomery, Hermann Weyl and Kurt Gödel, and also renewed his friendship with S S Chern with whom he had spent a year in Hamburg. Also during this period he visited the University of Chicago, invited by Marshall Stone, and gave a course of lectures. At Chicago he met Saunders Mac Lane, André Weil, Hassler Whitney, Antoni Zygmund and other leading mathematicians. While in the United States, Santaló received a number of offers of positions in that country but, certainly influenced by his family, he decided to return to Argentina.
Back in Argentina, Santaló was appointed as a Professor of Higher Mathematics at the National University of La Plata in the city of La Plata, in the Province of Buenos Aires. His second daughter Alicia was born in La Plata but times were hard financially so Santaló took on a number of additional roles. He served as a Member of the Mathematical Section of the National Commission for Atomic Energy from 1952 to 1957 and, between 1955 and 1959, he was Professor of Geometry at the Technical School of the Army. La Plata is only about 50 km from Buenos Aires and Santaló was often at the University of Buenos Aires, supervising the theses of his first two doctoral students, Leticia Varela (who received a Ph.D. in 1952) and of Alberto Ayub (who received a Ph.D. in 1955). Around this time his third daughter Claudia was born.
By 1957 Santaló already had almost 100 publications and, as one of the foremost mathematicians in Argentina, it is not surprising that in that year he became a full professor in the Faculty of Exact and Natural Sciences at the University of Buenos Aires. The family settled in a modest apartment on the Calle Cochabamba in the San Telmo district of Buenos Aires. The full professorship allowed him to give up the multiple jobs that he had taken on earlier and he was able to concentrate fully on teaching and research.
Santaló wrote several books, some in English and some in Spanish: Introduction to Integral Geometry (1953); Geometrias no Euclidianas (1961); Geometria proyectiva (1966); Integral Geometry and Geometric Probability (1976); Vectores y tensores con sus aplicaciones (1977).
A summary of his contributions is given in :-
A pioneer in the field of integral geometry, he published over two hundred research papers on integral geometry, metric geometry, affine geometry, projective differential geometry, the geometry of convex bodies, number theory, geometric probability and unified field theory. His works, which have been particularly influential in the scientific community of Spanish-speaking nations, were published in the major North American, British, German and Russian scientific journals. Although the mathematical work of Santaló was basic research, some of his findings were of decisive importance for other applied disciplines, particularly in operative research, biology and stereology. A key aspect of Santaló's work was his profound contribution to social progress and his constant efforts to modernize the teaching of mathematics in Spanish-speaking countries. Part of his work was devoted to this end in the form of articles and books on the teaching of mathematics in secondary education.In a 1982 interview, Santaló spoke about the importance of mathematics and mathematical education :-
When speaking of the resources of a country there is one, usually scarce, that it is not customary to mention: mathematical talents. Every child captures the essence of our science, but only some, naturally gifted, will come to stand out or attempt creative work. We know that they bloom at a very early age and if they are not educated then they fail; it is the duty of the school to discover and guide them; it is society's obligation to offer them an opportunity for their development. The rest of the citizens, without that special capacity or vocation, must, however, learn all the mathematics necessary to understand the world we live in. To ignore the language to which the sciences aspire and use its techniques, is to be locked away in illiteracy that a civilized country can not tolerate. Here the price of mismanagement is dependence, the loss of sovereignty.He received much recognition in Argentina during his career: the First National Prize for Culture (1954), the Prize of the Argentine Scientific Society (1959) and he was elected to the National Academy of Exact and Natural Sciences (1960). Also in Spain his achievements were recognised was awards. He was elected to the Royal Academy of Exact, Physical and Natural Sciences of Madrid (1955), elected to the Royal Academy of Sciences and Arts of Barcelona (1970), awarded an honorary doctorate by the Polytechnic University of Catalonia (1977), was awarded the Prince of Asturias Prize for Scientific Research (1983), and awarded the Narcis Monturiol Medal for Science and Technology of the Generalitat of Catalonia (1984). The citation for this award reads:-
The Jury values in Professor Santaló his outstanding research in various fields of mathematics, especially in integral geometry, of great importance in the development of modern tendencies in this science. His research, combined with exemplary university work, form the personality of this great Spanish-American mathematician, internationally recognised and considered as one of the most important contemporary geometricians.He was awarded an honorary doctorate by the Autonomous University of Barcelona (1986), awarded an honorary doctorate by the University of Seville (1990), awarded the Medal of the University of Valencia (1993), awarded the Cross of Saint George from the Generalitat de Catalunya (1994), awarded the Tribute of Alfonso X (The Wise), granted by King Juan Carlos, by the Ambassador of Spain in Argentina (1996) and made an Honorary Member of the Spanish Royal Mathematical Society (1999). The University of Girona created the Santaló Chair on July 27, 2000.
As to his character and interests outside mathematics, Santaló said he had a total ineptitude for manual tasks and little interest in so-called cultured music; liking folk songs and, above all, tangos. In literature he preferred Agatha Christie's detective novels and short stories. In sports he watched football on television but regretted that new scheduling diminished the number of games.
Let us end this biography by quoting from the Preface to  written by Simon Donaldson:-
The word geometry can cover many different things. The paths that can be traced from the most ancient concepts to sophisticated modern abstractions form one of the charms of the subject. We can all agree that the study of lines in three dimensional Euclidean space is a part of geometry. It is a wonderful idea that the set of all lines can itself be considered as a space, which has in turn its own geometry. Of course this leap into abstraction may seem commonplace now ... Modern differential geometry provides the language and tools for doing calculus on such spaces and in particular for integration. Then we can talk about the volume of a set of lines, the mean value of a function on the space of lines and so on. This is the beginning of Integral Geometry, to which Luis Santaló contributed so much.
Article by: J J O'Connor and E F Robertson