Poland was in a difficult position during World War I since it was partitioned between countries that were at war with each other. However, most Poles saw the war as an opportunity for the country to regain its independence. As the Red Army advanced from the east, the Mikusinski family fled in 1917 to Austria and lived for a year in Vienna. In March 1918 the Soviet government relinquished control of their part of Poland. This, of course, did not by itself unite Poland since World War I was still in progress. After the war ended with the surrender of the Central Powers, Poland proclaimed itself independent on 11 November 1918. The Mikusinski family returned to Poland and lived for a while in Rogozno, about 40 km north of Poznan, before settling in Poznan. In 1918 the family began again to use the name Geniusz but retained Mikusinski. Jan's school education was in Poznan. He entered the Ignacy Jan Paderewski Humanistic Gymnasium in 1923 and studied there for five years. However, he showed a special aptitude for mathematics so his parents decided that he would receive an education more suited for his interests at the Gotthilf Berger Gymnasium so he studied there between 1929 and 1932.
Although Mikusinski excelled in mathematics, it was engineering that had always been his main interest. However, his health was very fragile and he felt that he would not be physically able to become an engineer so, after beginning his studies in 1932 at the University of Poznan, he concentrated on mathematics. His health did not allow him to continue even with mathematics and he took a break of about three years before his health recovered sufficiently to enable him to continue his studies. He graduated with a Master's Degree on 3 December 1937. He remained at the University of Poznan where he was appointed as an assistant. At the start of World War II in 1939, Russia and Germany had a pact, the so-called Ribbentrop-Molotov pact, to divide Poland between them. The two-pronged attack - the Germans from the west and the Russians from the east - quickly defeated the Polish army. The University of Poznan was closed down by the occupying German forces in October 1939 and many of the faculty were arrested - Mikusinski fled to Kraków. He spent the war years, partly in Kraków and partly in Zakopane :-
He took an active part in secret education of secondary school pupils and students in Kraków. Because of the teaching activity he was arrested twice by the occupying Nazi force. He also took part in Professor Tadeusz Ważewski's underground seminar together with a group of Kraków mathematicians. The participants of Ważewski's seminar, in 1943, were the first persons to come in contact with a new theory which is now very well known in the world of mathematics as the Mikusinski operational calculus. The objects of the theory, operators, provide a common generalization of numbers and locally integrable functions on the positive half-line. The author first called them "hypernumbers" and gave this title to a paper containing the main ideas of the theory.In 1983 Studia Mathematica published an English translation of Hypernumbers. The paper contains a Preface explaining its wartime origins:-
This paper is quite unusual. It is not a new paper. It has been published already (in Polish), but the size of the first edition and the circumstances of its publication were out of the ordinary. The edition was limited to seven copies, and printing was made by the author himself by using X-ray films. The matter will become clear when we add that the paper appeared in Kraków, in the year 1944, during the Nazi occupation of Poland. It also explains why the author conceals his identity under the initials J.G.-M., and why only initials appear in the acknowledgement at the end of the author's introduction. The time has come to solve this riddle. The letters J.G.-M. stand for Jan G.-Mikusinski (G, being the first letter of Geniusz, the author's patronymic, which he later abandoned). This name is well known nowadays in the world of mathematics. It belongs to an eminent Polish mathematician ... The paper 'Hypernumbers' represents the first version of the Mikusinski operational calculus (improved afterwards by the use of the Titchmarsh theorem) and contains already the main ideas of this theory. The date of the edition of the paper is 1944, but the results were already presented by the author in 1943, during one of the secret wartime seminars conducted by Professor Tadeusz Ważewski in Kraków.In January 1945 Soviet forces liberated Kraków from the German occupation. Even before that Mikusinski had been undertaking research advised by Tadeusz Ważewski, but once the city was liberated, he was able to obtain an official position at the Jagiellonian University of Kraków. He submitted his Ph.D. thesis Sur un problème d'interpolation pour les intégrales des équations diffèrentielles linéaires and, after defending it, was awarded the degree on 25 July 1945. The Germans had opened a new German University of Poznan in 1941, but it was not well received; it operated until 1944. By the time Mikusinski was awarded his Ph.D., the Polish University of Poznan had reopened and he was able to return there and take up a position as assistant professor in the department headed by Władysław Orlicz. He held this position for the academic year 1945-46 during which time he also taught at the Engineering School in Poznan. On 28 February 1946 he habilitated at the Maria Sklodowska-Curie University of Lublin and was appointed as a docent. On 15 October 1947 he was promoted to associate professor of mathematics at Lublin, a position he held for a year. He was appointed to the University of Wrocław as an associate professor of mathematics on 30 October 1948 and he remained there until August 1955 when he was appointed to the University of Warsaw.
On 20 November 1948 the Polish government set up the State Mathematical Institute. Just before the outbreak of World War II, Poland had been planning two research institutes, one for pure mathematics and one for applied mathematics. However, this plan was put on hold when war broke out and, during the six years of war, the educational system severely damaged. The Institute, opened in 1948, was based on the earlier planned two Institutes, but they were merged into a single mathematics institute, divided into sections which correspond to the particular areas of mathematics. Mikusinski worked at the State Mathematical Institute from its foundation. He submitted a collection of his papers under the title A new approach to the operational calculus for a degree similar to the present D.Sc. and he was awarded the degree on 10 December 1955. He was promoted to full professor on 4 February 1958. Jan Mikusinski married Urszula and their son Piotr Jan Mikusinski was born in 1956. Piotr Mikusinski became a mathematician with interests similar to those of his father. He was awarded a doctorate from the Institute of Mathematics of the Polish Academy of Sciences in 1983 for his thesis Convergence of Boehmians. He is currently professor of mathematics at the University of Central Florida, Orlando, United States.
Let us look now at some of the contributions which Mikusinski submitted for his D.Sc. Rudolf Hilfer, Yury Luchko and Zivorad Tomovski write in :-
In the 1950's, Jan Mikusinski proposed a new approach to develop an operational calculus for the operator of differentiation (see J Mikusinski, Operational Calculus (Pergamon Press, New York, 1959)). This algebraic approach was based on the interpretation of the Laplace convolution as a multiplication in the ring of the continuous functions on the real half-axis. The Mikusinski operational calculus was successfully used in ordinary differential equations, integral equations, partial differential equations and in the theory of special functions. It is worth mentioning that the Mikusinski scheme was extended by several mathematicians to develop operational calculi for differential operators with variable coefficients ...Arthur Erdélyi, reviewing the Polish version of Mikusinski's book The Calculus of Operators (1953), writes:-
Mikusinski's book is a remarkable, and pioneering, venture. It presents a modern and abstract mathematical theory, in a completely elementary manner, to students of physics and engineering. Although the essence of the author's theory is the extension of a ring to a field, and the introduction of a suitable topology in this field, the terms ring, field, topology do not occur in the book. The exposition is precise but never abstract. The analogy with the extension of the number concept from integers to rationals to reals is pointed out. No knowledge of algebra or topology, and no training in abstract thinking, is required. The author assumes that the reader is familiar with the notions of limit, continuity, convergence, but not necessarily with uniform convergence (which is explained in the book together with the principal theorems relating to it) or Euler's integral of the second kind and the gamma function (which are also explained). By and large, freshman and sophomore calculus are not quite sufficient for reading this book, a good course in advanced calculus is more than sufficient.Henry Schaerf, reviewing the second Polish edition of Mikusinski's The Calculus of Operators (published in 1957), writes :-
In several papers the author has published a theory containing a direct justification of the Heaviside Calculus as opposed to the various well known indirect methods using functional transforms. The purpose of the book under review is to present this theory and its applications both to engineers primarily interested in the use of efficient computational procedures and to readers desiring to understand why these procedures work. To reach such a heterogeneous readership, the author uses the text-book approach and leads the reader gently and with great skill from a completely elementary level to rather abstract concepts.Mikusinski's career took an unfortunate turn shortly after he became a full professor. He developed serious eye problems which made teaching and research almost impossible and he requested a period of sick leave in which he might recover his health. His request, however, was refused so he resigned his professorship on 10 September 1959. The State Mathematical Institute had become the Mathematical Institute of the Polish Academy of Sciences after the Academy was founded in 1952 and Mikusinski retained his position at the Institute. In 1960 Mikusinski moved to Katowice. Krystyna Skornik writes :-
His arrival to Katowice was an event of great importance for the mathematicians working there. Shortly afterwards a group of young mathematicians from the Higher Pedagogical School in Katowice got in touch with him. The Professor delivered for them a series of lectures on operational calculus. After a year, the lectures turned to a regular seminar, first held at the Higher Pedagogical School, then at Mikusinski's home. The participants of this seminar ... remember the unique atmosphere of these meetings, discussions at a blackboard hanging in the garage or on the terrace, the rooms replacing a seminar room. The informal scientific contacts of Professor Mikusinski with Silesian mathematicians became formal only in 1966 when the Mathematical Laboratory (now the Branch of the Mathematical Institute of the Polish Academy of Sciences) was established.Piotr Antosik and Andrzej Kaminski discuss Mikusinski's seminar in Katowice in :-
The topics of the seminar were closely connected with the mathematical interests of Professor Jan Mikusinski and included the operational calculus, generalized functions, convergence structures and integration theory. In 1966 the members of the seminar organized in Katowice an international conference on generalized functions, in which about seventy mathematicians took part, among them those as eminent as Sergei Sobolev, Laurent Schwartz, Jean Dieudonné, George Temple, Hikosaburo Komatsu, Thomas K Boehme and others. Members of the seminar were invited to many mathematical centres all over the world. In the period of the duration of the seminar (1960-1987) its members published several books (more than 20 editions altogether) and about 250 scientific papers. Eight members of the seminar received their Ph.D.'s, two of them were habilitated and then two were promoted to the position of full professor.The existence of the seminar led to the establishment of the Katowice Branch of the Institute of Mathematics of the Polish Academy of Sciences which Mikusinski headed from its founding in 1966 until 1985. Mikusinski had, before the founding of the Katowice Branch of the Institute of Mathematics, been made head of the Department of Mathematical Analysis in the Mathematical Institute of the Polish Academy of Sciences.
We should mention a number of Mikusinski's books in addition to The Calculus of Operators (1953) which we discussed above. The list of his publications given in  lists 26 books including: (with Stanisław Hartman) Theory of measure and Lebesgue integral (Polish) (1957), English edition published under the title The theory of Lebesgue measure and integration (1961); (with Roman Sikorski) Théorie élémentaire des distributions (1964); (with Piotr Antosik and Roman Sikorski) Theory of distributions. The sequential approach (1973); The Bochner integral (1978); Operational calculus. Vol. I (1983) and (with Thomas K Boehme) Operational calculus. Vol. II (1987) and (with Piotr Mikusinski) An Introduction to Analysis: From Number to Integral (1993). This last mentioned work, a collaboration between Mikusinski and his son Piotr, is described by the Publisher (Wiley) as follows:-
Based on the lifetime work of leading teacher and researcher Jan Mikusinski, this classroom-tested book provides a thorough grounding in mathematical analysis, calculus and mathematical proofing. It introduces natural numbers through a new mathematical approach; replaces the Riemann integral with the more general Lebesgue integral; and rigorously develops the real number system from four simple axioms of natural numbers. Additional features include a wider range of problems than other texts - including simple and routine as well as problems requiring more in depth creativity, answers to common questions, a new approach to the concept of equivalence relation which simplifies the construction of real numbers, and a large number of computational applications.Mikusinski received numerous honours, prizes and awards. He was awarded the Banach Prize by the Polish Mathematical Society in 1950, he received the National Prize (Class II) in 1953, the University in Rostock awarded him an honorary degree in 1970, he was elected to the Serbian Academy of Sciences and Art in 1975, the Polish Mathematical Society made him an Honorary Member in 1984 and he received the Sierpiński Medal from the Polish Mathematical Society and Warsaw University in 1985.
During the 27 years that he spent in Katowice, Mikusinski struggled to overcome health problems :-
In spite of bad conditions of his health, he was a very active researcher and worked to the last days of his life.Jan Mikusinski died on 27 July 1987 and was buried on the cemetery in Katowice. When Studia Mathematica published Mikusinski's 1944 paper Hypernumbers in 1983 it was to celebrate both the 40th anniversary of the original publication and Mikusinski's 70th birthday. We end this biography with the final words from the 1983 Preface:-
We would like to thank [Professor Jan Mikusinski] for all the theories and theorems with which he has enriched Polish and world mathematics and for his constant pursuit of beauty, simplicity and elegance in mathematics.
Article by: J J O'Connor and E F Robertson