Julio Rey Pastor studied high school in his hometown, and began his studies in Sciences in Vitoria. He moved to the University of Saragossa, where he found a stimulating environment in mathematics. Zoel García de Galdeano, Professor of Analytical Geometry and Calculus, was the professor who most influenced Rey Pastor’s scientific work. He graduated with honors in 1908. Rey Pastor earned his doctorate from Complutense University of Madrid in 1909, under supervision of Eduardo Torroja Caballé. Between 1911 and 1914, he studied at the University of Berlin and the University of Göttingen, under the supervision of Felix Klein. During that period, he also studied under the supervision of Professors Hermann Schwarz, Friedrich Hermann Schottky, and Ferdinand Georg Frobenius. His report sent to the Junta para Ampliación de Estudios allows us to assess the significance of his studies in Germany. He especially liked Schwarz’s lectures on analytic functions and synthetic geometry, not only because of their innovations but also because Schwarz’s teaching method. In this report, Rey proposed the creation of a "seminar in mathematics to arouse the research spirit of our school children." His proposal was accepted and in 1915 the JAE created the Mathematics Laboratory and Seminar, an important institution for the development of research on this field in Spain. Undoubtedly, the creation of the laboratory was a result of Rey Pastor’s studies in Germany, and it was intended to overcome the isolation and individualism of the Spanish mathematicians. This laboratory, under the National Institute of Sciences, was first installed in the basement of the National Library, then moved to a modest apartment on Santa Teresa St., then to the building of the Center for Historical Studies and, finally, became part of the Consejo Superior de Investigaciones Científicas, renamed Instituto Jorge Juan de Matemáticas in 1939. Rey Pastor’s scientific work involved research, textbooks, and articles for the general public. They reflected the changes that were taking place in mathematics. He was also interested in the history of science and, specifically, mathematics in Spain. In 1951, he was appointed director of the Instituto Jorge Juan de Matemáticas in the CSIC. His plans in Spain included two projects: the creation, within the CSIC, of an Institute of Applied Mathematics, and the foundation of a Seminar on the History of Science at the university. In 1954, he entered the Royal Spanish Academy, proposed by Gregorio Marañón, and Francisco Javier Sánchez Cantón, and delivered an acceptance speech on the algebra of language.. Rey Pastor showed his passion for mathematics as a researcher, as promoter of new studies, and as creator of agencies and institutions that enhanced the development of mathematics in Spain. A lunar crater Faraday G was called Reypastor by Hugh Percy Wilkins and Antonio Paluzie-Borrell, mappers of Earth's Moon, but the designation was not adopted by the International Astronomical Union. In 1956, he went back to Argentina and only returned to Spain on the occasion of the entry of his disciple, Sixto Ríos into the Academy of Sciences, on June 21, 1961. In his speech, Rey Pastor recalled the process of creation of the laboratory and the support from the JAE. Rey Pastor occupied a seat in the Real Academia Española between 1953 and 1962. He was honored with a Spanish stamp in 2000.
Works
1910: Correspondencia de figuras elemental, con aplicación al estudio de las figuras que engendran
1916: Fondamentos de la geometría proyectiva superior, JAE
1916: Introducción a la matemática superior, Madrid : Corona
1917: Teoría de la representación conforme, Barcelona: Institut d’Estudis Catalans
1929: Teoría geométrica de la polaridad en las figuras de las primera y segunda categorías, Madrid : Real Academia de Ciencias