Louis Auguste Antoine


Quick Info

Born
23 November 1888
Mirecourt, Vosges, France
Died
8 February 1971
Rennes, Bretagne, France

Summary
Louis Antoine was a French mathematician famous for his invention of Antoine's necklace.

Biography

Louis Antoine was born in Mirecourt, a small town just over 40 km south of Nancy. He attended the lycée in Nancy and, after his father had been appointed director of Compagnie Générale des Allumettes Chimique, a firm which manufactured matches in Saintines, Oise, he studied at the Collège de Compiègne. Saintines, about 12 km south of Compiègne, was famous for the manufacture of matches, which had been made there since 1853. The Collège de Compiègne was an ancient institution founded in 1571, which had served as a Jesuit college 1653-1762 and then as a Benedictine college 1772-1790. Louis was a successful pupil at school, excelling in mathematics and science. At the Collège de Compiègne he was introduced to rugby by one of the professors and it was to remain a passion throughout his life.

In Paris, Antoine was awarded a baccalaureate in Latin and Sciences in 1905 and, in the following year, a baccalaureate in mathematics. Having sat the entrance examinations, he was offered a place at both the École Normale Supérieure and at the École Polytechnique in 1908. He chose the former since it was the stronger of the two establishments for mathematics and graduated in 1912. Gaston Julia, who was four years younger than Antoine, entered the École Normale Supérieure in 1911 and, despite the fact that they did not overlap at the École for very long, Antoine and Julia became firm friends. Following his graduation, Antoine became a mathematics teacher at the Lycée de Dijon in Saint-Cyr. He met two sisters, Marguerite and Yvonne Rouselle, daughters of a notary clerk and both school teachers at Mouy, Oise [15]:-
Marguerite fell under the charm of the very beautiful blue eyes of Louis. The feelings were reciprocated and the two were engaged to be married.
The future for Antoine as a school teacher who would soon be married to his sweetheart seemed secure when political events in Europe turned their world upside-down. Matters came to a head in July 1914 with various declarations of war, and on 3 August Germany declared war on France. Events had been moving quickly and Antoine, who was a reserve lieutenant in the 72nd Infantry Regiment of Amiens, was mobilised on 2 August as France geared up for war. He became the commander of the second machine gun section of the 151st Infantry Regiment. Germany invaded Belgium on the night of 3-4 August, the event which brought Great Britain into World War I. Antoine and his section were sent to Belgium to meet the German advance. Fierce fighting took place near the village of Ramscapell after the German advance was halted by the river Yser. In a trench near Ramscapell, Antoine was wounded by shrapnel on 25 August but was able to continue fighting. He was wounded again on 30 October, again being hit by shrapnel. For his courageous actions he was decorated several times, made a captain at the age of 29 and, on 28 November 1916, he was made a knight of the Légion d'Honneur and was decorated with the Croix de Guerre with palm. He was given short periods of leave on a few occasions and he was able to meet up with his family and with his fiancée Marguerite.

In the spring of 1917 the Allies, following a plan made by Robert Nivelle, the commander of the French forces, were attempting to force the German troops back from the line, along the Chemin des Dames, they held between Arras and Reims. However, the Germans countered the attacking forces with an intense barrage of artillery fire from positions which were well protected with deep trenches and underground quarries. On 16 April 1917, Antoine led his men to attack Fort Brimont on the banks of the river Miette. Gaston Julia relates the events that followed ([13] or [14]):-
The attack progresses to a railway embankment, behind which troops are hiding waiting for the attack. Antoine is observing the German trenches through binoculars when a bullet removes both his eyes. He is blind, but does not know it yet. At the hospital, he is told he has lost one eye but they hope to save the other. He is evacuated to Paris to the hospital annex Val-de-Grâce, where the wounded from the front are treated. This is where I found him one morning when I was asked to go to the bandaging room at 8:00 because one of my classmates from the École Normale arrived in the night and had asked to see me. I ran to the bandaging room and Antoine said simply to me: "Look at me straight in the face and tell me just how my eyes are: I want the whole truth." It is a poignant moment: there is nothing in his empty eye sockets. I told him so, sadly. He took my hand and thanked me affectionately for having "treated him like a man."
Not only had Antoine lost the sight of both eyes, he had also lost any sense of smell as the bullet had also destroyed his nose. Julia had also been seriously wounded in the fighting of World War I and he spent much time in hospital having operations on his face. Julia and Antoine met frequently in the Val-de-Grâce hospital, even sharing a room for a while. Henri Lebesgue was a friend of Julia's and he often visited the hospital. As Antoine slowly recovered he began to worry about his future. Now that he was blind, he felt that he would not be able to continue as a school teacher. As a wounded soldier, he would receive a state pension but he was not happy to think that his life was over. Henri Lebesgue suggested that he could train to become a research mathematician despite never having studied beyond undergraduate level. He also suggested the area that would be best for him to work in, namely two- and three-dimensional topology. As this was a new area, there were few papers in that area so Antoine's inability to read would be a smaller disadvantage. Also, Lebesgue suggested ([12] or [1]):-
... in such a study the eyes of the spirit and the habit of concentration will replace the lost vision.
Marguerite, Antoine's finacée, had been appointed as a teacher at Vert-le-Petit, in the Essonne [15]:-
Antoine offered to cancel his promise of marriage to Marguerite but, like many women, she refused, perhaps partly out of patriotism, but also because of an intense love. Their marriage was celebrated on 15 May 1918.
Now there was no way that Antoine could have studied mathematics on his own but he had the help of a number of good friends: Henri Lebesgue, Marcel Brillouin and Gaston Julia made Braille copies of the leading mathematical treatises of the day so that Antoine could bring his mathematical knowledge up to the level needed for research. However, there was no standard Braille representation of mathematical symbols so Antoine, assisted by Bourguignon who was a student at the École Normale Supérieure of Saint-Cloud, invented Braille versions of mathematical symbols. From 1919, Antoine had a position at the University of Strasbourg while he worked on his thesis. He submitted his doctoral thesis, Sur l'homéomorphie de deux figures et de leurs voisinages , to the University of Strasbourg and was awarded his doctorate on 9 July 1921. The thesis was a remarkable piece of work which contained what today is known as 'Antoine's necklace' [12]:-
Bernard Morin (1931-) met Antoine in the mid-1960s, and Antoine explained to his younger fellow blind mathematician how he had come up with his best-known result. Antoine was trying to prove a three-dimensional analogue of the Jordan-Schönflies theorem, which says that, given a simple closed curve in the plane, there exists a homeomorphism of the plane that takes the curve into the standard circle. What Antoine tried to prove is that, given an embedding of the two-sphere into three-space, there is a homeomorphism of three-space that takes the embedded sphere into the standard sphere. Antoine eventually realized that this theorem is false. He came up with the first "wild embedding" of a set in three-space, now known as Antoine's necklace, which is a Cantor set whose complement is not simply connected. Using Antoine's ideas, J W Alexander came up with his famous horned sphere, which is a wild embedding of the two-sphere in three-space.
An interesting account of these ideas is given in Horst Ibisch's articles [10] and [11]. Ibisch explains how J W Alexander realised that Antoine's "remarkable point set" could be easily modified to obtain a counterexample to the Schönflies conjecture which he published in 1924. In fact J W Alexander had earlier announced that he had a proof of the Schönflies conjecture! Here is a description of how Antoine's necklace is constructed [1]:-
Antoine's necklace is a gorgeous mathematical object that may be represented as chains within chains within chains ... The necklace can be constructed by first considering a solid torus, or doughnut shape. Within the torus, we construct a chain CC of nn components (links). Next, we modify each link of chain CC so that it is actually another chain C1C_{1} of nn solid tori. In each link of C1C_{1}, we construct a smaller chain of solid tori embedded in each link. Continue this process forever to create the delicate necklace of tori whose diameters decrease to zero.
A movie of a rotating 4th iteration for Antoine's necklace is at THIS LINK

Henri Lebesgue, who examined Antoine's doctoral thesis, wrote:-
In France we have very few doctors of mathematics, although our people have a high culture. Perhaps the French do not like the mediocre and, for fear of not doing well enough, many prefer doing nothing who could do exceptionally well. Despite his brilliant qualities, without the war, M Antoine would perhaps never have undertaken his own research. His example encourages daring.
Antoine was not particularly happy in Strasbourg. The city had long been disputed between the French and the Germans. It had been French before the Franco-Prussian war of 1870-71 when Germany captured the city after a 50-day siege. After taking control of Alsace-Lorraine, the Germans had reorganised the University of Strasbourg and reopened it as the German Kaiser-Wilhelm University of Strasbourg in 1872. Strasbourg was returned to France after World War I and the city and university were being made French when Antoine was appointed. He was unhappy at the tensions that existed between the French and German supporters and looked for the first possible move. This came in 1922 when he was offered a position as an assistant lecturer at the Faculty of Science at Rennes. He was appointed Professor of Pure Mathematics in Rennes in 1925. Of course, it is natural to ask how someone who is totally blind could teach students. Jean Lefort writes [15]:-
He put all his energies into teaching when he began to carry out his profession. He needed to write on the blackboard so he took lessons in writing from his secretary so that he could write well both French and mathematical formulas (to correctly set the numerator and denominator of a fraction is a trap for a blind man). Like any teacher, after writing on the blackboard, he turns to his students and when he wants to continue writing, he must know where he stopped. He divided the blackboard into three vertical strips with holes which could hold a peg. He placed a peg where he stopped, which allowed him to continue writing in the proper place. However, it was impossible to draw the figures which were required in geometry. These were prepared at home by his wife, with the help of mathematics teachers. These figures were made with such dazzling precision that one day one of his students ventured to ask him in a geometry course suited for cartography, "But Sir, how do you make them?" He got this humorous response: "You know, I'm blind because of the war, a bullet has deprived me of my sight, and the last thing I saw was a military map". He added, "In geometry, I have an advantage over you; you, you see the figure, but the whole figure. I also see the figure, but I only remember the part that interests me to answer the question."
Jean Bocle was a student of Antoine's at Rennes. He went on to become Antoine's assistant and much later became Dean of Science at Rennes. He spoke about Antoine as a teacher in [4]:-
[Antoine] spoke in a clear voice, well modulated, at such a rate that it was easy to take notes, especially as his explanations were always clear and his presentation never became confused, examples and counterexamples presented at the right time to make the theory clear. ... The examination papers were discussed with the assistants and their difficulty was well judged: never traps or trick questions. All of this meant that the results were never a surprise. At oral examinations, as in the written examinations, Antoine sought not to embarrass the candidate; I do not believe a student was ever lost for words in front of him ... After the interrogation ended, there was no anxious waiting, for Antoine immediately gave the result to the applicant.
Jean Lefort also writes about Antoine's family in [15]:-
After the birth of Maurice at Strasbourg, his two daughters, Madeleine and Denise, were born in Rennes: Antoine always regretted that he had never seen his children. The children were accustomed to not to leave their toys lying around and to leave a door which was closed, wide open so that their father didn't collide with it. Good father, he watched over the upbringing of his children, speaking in French, in Latin, in Greek, teaching physics and mathematics well ... forcing them to find for themselves the rules to use. ...
How did the blind mathematician spend his leisure time? Louis Antoine:-
... made a point of honour of doing things which were difficult for the blind, such as handicrafts: repairing an iron, doing joinery work, changing washers. However, there were other things he could not do or refused to do: at the table, for example, it was necessary to cut his meat, this was done by his wife who was always by his side. Also when he went outside, he insisted that he was accompanied, which was a burden to Marguerite, though later it was the children who accompanied their father to the faculty, children who felt the curious looks from the students. This refusal to travel alone outside is quite strange from a man who has invested so much so that the blind could take their place in society. ... From the beginning of his disability, he had taken up music, learning piano using a Braille method, then taking up the mandolin since it was easier to transport. Music was his main hobby. ... one of his daughters, then in kindergarten, when asked by her teacher what her father did said, "Dad listens to music!" He could also read novels or other Braille books.
His whole career was spent in Rennes where he was visited by many mathematicians. For example, Pavel Sergeevich Aleksandrov and Pavel Samuilovich Urysohn visited him in Rennes only days before Urysohn drowned swimming off Batz-sur-Mer in August 1924. He welcomed German mathematicians as enthusiastically as any others. During World War II, Antoine and his wife opened their home to refugees. Later, when under German occupation, a room in their home was requisitioned for German officers to live in. He was treated with great kindness by these officers who were embarrassed to see someone so disabled by war. He took on several administrative roles at the university but refused the position of Dean of Science since that position would have involved him in making journeys to Paris and he disliked travelling. Antoine published a textbook based on courses he had taught on the differential and integral calculus; the 234 page volume Calcul différentiel et calcul intégral: Calcul intégral (1948) and the 194 page volume Calcul différentiel et calcul intégral: Calcul différentiel (1949). The book, which was "a model of clarity, brevity and rigour" was popular and a second edition was published in 1955.

In 1957 he suffered heart problems and had to restrict his activities. Fearing that he might not be able to carry out all his duties at the university to the high standard that he set himself, he retired from his professorship. He was honoured in 1961 when he was elected to the Académie des Sciences having been proposed for membership by Julia. He died in February 1971 following a fracture of his neck. His wife Marguerite only outlived him by a few weeks for she died on 24 May 1971. On the occasion of his 100th birthday, the University of Rennes organised a special session devoted to the memory. The proceedings of the meeting was published as Journée Louis Antoine (1988). Many of the papers listed in the references are published versions of talks given at this special session. Let us end this biography by quoting from the speech given by Denise Legros, Antoine's daughter:-
We have come to this day where he would have been 100 years old, and only now I learned of the existence of the Antoine necklace. ... He never boasted of his science and we did not realise the importance of his work. Certainly, we saw many foreign mathematicians come to our home and we saw that one is American, another is German. He would even have meetings or dinners out with these foreign professors who came, but we did not know much more. Mama told me: "Oh, you know, your father does important work and if he was not blind we would have often been to conferences abroad." But it was impossible to persuade him to travel.


References (show)

  1. C A Pickover, The Math Book: From Pythagoras to the 57th Dimension, 250 Milestones in the History of Mathematics (Sterling Publishing Company, Inc., 2009).
  2. A W Alexander, Remarks on a Point Set Constructed by Antoine, Proc. National Acad. Sci. 10 (1) (1924), 10-12.
  3. H Bauer, Quelques souvenirs à propos de Louis Antoine, in Journée Louis Antoine (Univ. Rennes I, Rennes, 1988), 85-90.
  4. J Bocle, Allocution de Jean Bocle, in Journée Louis Antoine (Univ. Rennes I, Rennes, 1988), 117-124.
  5. B L Brechner and J C Mayer, Antoine's Necklace or How to Keep a Necklace from Falling Apart, The College Mathematics Journal 19 (4) (1988), 306-320.
  6. J Dieudonné, Allocution de Jean Dieudonné, in Journée Louis Antoine (Univ. Rennes I, Rennes, 1988), 101-105.
  7. A Errera, Sur les travaux de M L A Antoine (1888-), J Bulletin de la Société Mathématique de Belgique 9 (1957), 50-58.
  8. A Errera, Sur les travaux de M L A Antoine, in Journée Louis Antoine (Univ. Rennes I, Rennes, 1988), 19-27.
  9. J Hameurt, Allocution d'ouverture de la Journée Louis Antoine, in Journée Louis Antoine (Univ. Rennes I, Rennes, 1988), 29-33.
  10. H Ibisch, L'oeuvre mathématique de Louis Antoine et son influence, Exposition. Math. 9 (3) (1991), 251-274.
  11. H Ibisch, L'oeuvre mathématique de Louis Antoine et son influence, in Journée Louis Antoine (Univ. Rennes I, Rennes, 1988), 35-83.
  12. A Jackson, The world of blind mathematicians, Notices Amer. Math. Soc. 49 (10) (2002), 1246-1251.
  13. G Julia, Notice nécrologique sur Louis Antoine, Comptes Rendus de l'Académie des Sciences de Paris 272 (8 March 1971), 71-74.
  14. G Julia, Notice nécrologigue sur Louis Antoine, correspondant de l'Académie pour la section de géométrie, in Journée Louis Antoine (Univ. Rennes I, Rennes, 1988), 13-16.
  15. J Lefort, Louis Antoine, géomètre aveugle, Pour la Science 352 (February 2007), 16-21.
  16. D Legros, Allocution de Madame Denise Legros, in Journée Louis Antoine (Univ. Rennes I, Rennes, 1988), 125-127.
  17. P Libermann, Les idées de Louis Antoine concernant l'enseignement de la géométrie, in Journée Louis Antoine (Univ. Rennes I, Rennes, 1988), 91-97.
  18. Y Martin, Allocution de Yves Martin, in Journée Louis Antoine (Univ. Rennes I, Rennes, 1988), 107-116.

Additional Resources (show)

Other pages about Louis Antoine:

  1. A rotating fourth iteration for Antoine's necklace

Other websites about Louis Antoine:

  1. Antoine's necklace
  2. MathSciNet Author profile
  3. zbMATH entry

Written by J J O'Connor and E F Robertson
Last Update January 2013