|Arnold Sommerfeld |
Arnold Sommerfeld was born in 1868 in Germany, and studied mathematics and natural science at the University of Köningsberg, receiving his PhD in 1891. He was an assistant professor at the University of Göttingen in mathematics and in mineralogy, before becoming a professor of mathematics at the Mining Academy of Claustel and then a professor of mechanics at the Institute of Technology of Aachen. In 1906 he become the head of the Department of Theoretical Physics at the University of Munich, a position that had previously been held by Ludwig Boltzmann. The University of Munich was well known in the field of theoretical physics, so this was both a great honor and a wonderful opportunity for Sommerfeld to influence a new generation of physicists. He taught there from 1906 to 1935, when he retired.
When he receive the post of chair of Theoretical Physics, Sommerfeld wanted to learn more about the field, since he himself was a mathematician, not a physicist. He asked Abraham Joffe, who had helped to discover x-rays, for help in understanding physics. He suggested that they meet every morning at a café to discuss experimental physics, and these discussions quickly included many more scholars eager to discuss new ideas. Apparently he was a great lecturer, and was able to explain the complexities of atomic structure and other confusing topics with great clarity.
His research started out in the field of the propagation of radio waves, which now seems rather outdated, but at that time was of vital importance. The telephone had been developed in the late nineteenth century, but by 1900, most people conveyed important communications by telegraph. While telegraphs traveled by wires in many parts of the country, telegraphs to ships required radio waves, and the difficulties with sustaining a cable across the Atlantic meant that transatlantic communications would have to be by radio waves. The first wireless telegraph was patented in 1897 by Guglielmo Marconi (who shared the Nobel Prize in physics in 1909 for his work with wireless telegraphy), and the first transatlantic telegraphic communications via radio waves were accomplished in 1901. Sommerfeld's 1909 paper "The Propagation of Waves in Wireless Telegraphy" was thus of vital importance at the time, and has been oft cited.
As well as working with radio waves, Sommerfeld also worked with x-rays, still a very new and mysterious phenomenon, and his student Max von Laue showed that x-rays are also an electromagnetic wave (and won a Nobel Prize for it). Sommerfeld went on to develop the relativistic quantum theory of the fine structure of the hydrogen spectrum. Quantum theory is difficult enough, but adding relativity is quite an accomplishment. I first met the name Sommerfeld when considering the electronic theory of metals, where he developed the Sommerfeld Equation as a method to approximate functions as a function of temperature. He is also famous for his work with atomic theory and atomic physics, in the end publishing a six volume series on the subject of theoretical physics and going on two lecture tours in the United States. Unfortunately, however, he met his death as a result of an automobile accident in 1951. As Linus Pauling wrote, "The hazard of a mechanized world has prevented his students from celebrating during his lifetime still further anniversaries of the birth of this great man."
Other works by Sommerfeld
- "Über die Ausbreitung der Wellen in der drahtlosen Telegraphie (The propagation of waves in wireless telegraphy)", Ann. der Phys., 28 (March 1909), 665-736. (This is the same as volume 333. They renumbered them in 2010.) doi: 10.1002/andp.19093330402
- "Über die Ausbreitung der Wellen in der drahtlosen Telegraphie (The propagation of waves in wireless telegraphy)", Ann. der Phys., 81 (December 1926), 1135-1153. (Now volume 386) doi: 10.1002/andp.19263862516.
References and further reading
- Elisabeth Crawford, "Nobel population 1901-50: anatomy of a scientific elite", Nov 5, 2001, Physics World.
- Suman Seth, "Mystik and Technik: Arnold Sommerfeld and Early-Weimar Quantum Theory", Berichte zur Wissenschaftsgeschichte 31, 4 (2008) 331-352.
- Linus Pauling, "Arnold Somerfeld: 1868-1951", Science 114, 2963 (Oct. 12, 1951) 383-384.
- "Professor Arnold Sommerfeld", Journal of Applied Physics 9, 12 (Dec. 1, 1938) 754-755.
- Steven Schot, "Eighty years of Sommerfeld's radiation condition", Historia Mathematica 19, 4 (Nov. 1992) 385-401.
- John. J. Fahie, A History of Wireless Telegraphy, 1838-1899, Blackwood, Edinburgh, 1899.
- "Arnold Sommerfeld", Physics Today 4, 12 (1951) 21.
- Joachim Pietzsch, "The Nobel Prize in Physics 1914 - Perspectives", Nobelprize.org