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Arnold Sommerfeld

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Arnold Sommerfeld
File:Sommerfeld.jpg
Arnold Johannes Wilhelm Sommerfeld
BornDecember 5, 1868
Königsberg, East Prussia
DiedApril 26, 1951
Munich, Germany
Nationality German
Alma materUniversity of Königsberg
Known forDrude-Sommerfeld model
Fine-structure constant
Sommerfeld identity
Sommerfeld-Kossel displacement
Sommerfeld-Wilson quantization
SpouseJohanna Höpfner
ChildrenThree sons, one daughter
AwardsMatteucci Medal (1924)
Max-Planck Medal (1931)
Lorentz Medal (1939)
Oersted Medal (1949)
Scientific career
FieldsPhysics
InstitutionsUniversity of Gottingen
Technische Universität Clausthal
University of Aachen
University of Munich
Doctoral advisorFerdinand von Lindemann
Doctoral studentsWerner Heisenberg File:Nobel.png
Wolfgang Pauli File:Nobel.png
Peter Debye File:Nobel.png
Hans Bethe File:Nobel.png
Linus Pauling File:Nobel.png
Isidor I. Rabi File:Nobel.png
Léon Brillouin
Edward Condon
Paul Sophus Epstein
Paul Peter Ewald
Herbert Fröhlich
Walter Heitler
Karl Herzfeld
Walther Kossel
Alfred Landé
Otto Laporte
Wilhelm Lenz
Rudolf Peierls
Rudolf Seeliger
Albrecht Unsöld
Ludwig Waldmann
Gregor Wentzel
Karl Apfelbacher
Karl Bechert
Friedrich Burmeister
Walter Franz
Erwin Fues
Ernst Guillemin
Demetrius Hondros
Helmut Hönl
Ludwig Hopf
Adolf Kratzer
Herbert Lang
Herman March
Walter Rogowski
Aldebert Wojciech Rubinwicz
Valentin Scheidel
Karl Seebach
Bruno Thüring
Kurt Urban
Heinrich Welker

Arnold Johannes Wilhelm Sommerfeld (December 5, 1868 in Königsberg, East PrussiaApril 26, 1951 in Munich, Germany) was a German theoretical physicist who pioneered developments in atomic and quantum physics, as well as educated and groomed a large number of students for the new era of theoretical physics. He introduced the fine-structure constant into quantum mechanics.

Career

Arnold Sommerfeld studied mathematics and physical sciences at the University of Königsberg. His dissertation advisor was the mathematician Ferdinand von Lindemann, [1] and he also benefited from classes with mathematicians Adolph Hurwitz and David Hilbert, and physicist Emil Wiechert.[2] His participation in the student fraternity Deutsche Burschenschaft resulted in a fencing scar on his face.[3] He received his Ph.D. in 1891.[4]

After receiving his doctorate, Sommerfeld remained at Königsberg to work on his teaching diploma. He passed the national exam in 1892 and then began a year of military service, which was done with the reserve regiment in Königsberg. He completed his obligatory military service in September of 1893, and for the next eight years continued voluntary eight-week military service. With his turned up moustache, physical build, Prussian bearing, and helped by the fencing scar on his face, he gave the impression of being a colonel in the hussars.[5]

In October, Sommerfeld went to the University of Göttingen, which was the center of mathematics in Germany.[6] There, he became assistant to Theodor Liebisch, at the Mineralogical Institute, through a fortunate personal contact - Liebisch had been a professor at the University of Königsberg and a friend of the Sommerfeld family.[7]

In September, 1894, Sommerfeld became Felix Klein’s assistant, which included taking comprehensive notes during Klein’s lectures and writing them up for the Mathematics Reading Room, as well as managing the reading room.[8] Sommerfeld’s Habilitationsschrift[9] was completed under Klein, in 1895, which allowed Sommerfeld to become a Privatdozent at Göttingen.[10] As a Privatdozent, Sommerfeld lectured on a wide range of mathematical and mathematical physics topics. His lectures on partial differential equations were first offered at Göttingen,[11] and they evolved over his teaching career to become Volume VI of his textbook series Lectures on Theoretical Physics, under the title Partial Differential Equations in Physics.[12]

Lectures by Klein in 1895 and 1896 on rotating bodies led Klein and Sommerfeld to write a four-volume text Die Theorie des Kreisels – a 13-year collaboration, 1897 - 1910. The first two volumes were on theory, and the latter two were on applications in geophysics, astronomy, and technology.[13] The association Sommerfeld had with Klein influenced Sommerfeld’s turn of mind to applied mathematics and in the art of lecturing.[14]

While at Göttingen, Sommerfeld met Johanna Höpfner, daughter of Ernst Höpfner, curator at Göttingen. In October, 1897 Sommerfeld began the appointment to the Chair of Mathematics at the Bergakademie in Clausthal-Zellerfeld; he was successor to Wilhelm Wien. This appointment provided enough income to eventually marry Johanna.[15][16][17]

At Klein’s request, Sommerfeld took on the position of editor of Volume V of Encyklopädie der mathematischen Wissensachften; it was a major undertaking with lasted from 1898 to 1926.[18][19]

In 1900, Sommerfeld started his appointment to the Chair of Applied Mechanics at the Rheinisch-Westfälische Technische Hochschule as extraordinarius professor, which was arranged through Klein’s efforts. At Aachen, he developed the theory of hydrodynamics, which would retain his interest for a long time. Later, at the University of Munich, Sommerfeld’s student Werner Heisenberg would write his Ph.D. thesis on this topic.[20][21][22][23]

From 1906 Sommerfeld established himself as ordinarius professor of physics and director of the new Theoretical Physics Institute at the University of Munich. He was selected for these positions by Wilhelm Röntgen, Director of the Physics Institute at Munich,[24] which was looked upon by Sommerfeld as being called to a “privileged sphere of action.”[25] In 1938, Sommerfeld was awarded emeritus status.[26] From 1942 to 1951, Sommerfeld worked on putting his lecture notes in order for publication.[27] They were published as the six-volume Lectures on Theoretical Physics.

Up until the late 19th century and early 20th century, experimental physics in Germany was considered as having a higher status within the community. However, in the early 20th century, theorists, such as Sommerfeld at Munich and Max Born at the University of Göttingen, with their early training in mathematics turned this around so that mathematical physics, i.e., theoretical physics, became the prime mover and experimental physics was used to verify or advance theory.[28] After getting their doctorates with Sommerfeld, Wolfgang Pauli, Werner Heisenberg, and Walter Heitler became Born’s assistants and made significant contributions to the development of quantum mechanics, which was then in very rapid development.

Over his 32 years of teaching at Munich, Sommerfeld taught general and specialized courses, as well as holding seminars and colloquia.[29] The general courses were on mechanics, mechanics of deformable bodies, electrodynamics, optics, thermodynamics and statistical mechanics, and partial differential equations in physics. They were held four hours per week, 13 weeks in the winter and 11 weeks in the summer, and were for students who had taken experimental physics courses from Röntgen and later by Wilhelm Wien. There was also a two-hour weekly presentation for the discussion of problems. The specialized courses were of topical interest and based on Sommerfeld’s research interests; material from these courses appeared later in the scientific literature publications of Sommerfeld. The objective of these special lectures was to grapple with current issues in theoretical physics and for Sommerfeld and the students to garner a systematic comprehension of the issue, independent of whether or not they were successful in solving the problem posed by the current issue or not.[30] For the seminar and colloquium periods, students were assigned papers from the current literature and they then prepared an oral presentation.[31]

Four of Sommerfeld’s doctoral students,[32], Werner Heisenberg, Wolfgang Pauli, Peter Debye, and Hans Bethe went on to win Nobel Prizes, while others, most notably, Walter Heitler, Rudolf Peierls,[33] Gregor Wentzel, Paul Peter Ewald, Alfred Landé, and Léon Brillouin[34] became famous in their own right. Two of Sommerfeld’s postgraduate students, Linus Pauling[35] and Isidor I. Rabi[36] won Nobel Prizes, and three others, Edward Condon,[37] Walther Kossel, and Karl Herzfeld, went on to become famous in their own right. Max Born believed Sommerfeld’s abilities included the “discovery and development of talents.”[38] Albert Einstein told Sommerfeld: “What I especially admire about you is that you have, as it were, pounded out of the soil such a large number of young talents.”[39] Sommerfeld’s style as a professor and institute director did not put distance between him and his colleagues and students. He invited collaboration from them, and their ideas often influenced his own views in physics. He entertained them in his home and met with them in cafes before and after seminars and colloquia. Sommerfeld owned an alpine ski hut to which students were often invited for discussions of physics as demanding as the sport.[40]

While at Munich, Sommerfeld came in contact with the special theory of relativity by Albert Einstein, which was not yet widely accepted at that time. His mathematical contributions to the theory helped its acceptance by the skeptics. In 1914 he worked with Léon Brillouin on the propagation of electromagnetic waves in dispersive media. He became one of the founders of quantum mechanics; some of his contributions included co-discovery of the Sommerfeld-Wilson quantization rules (1915), a generalization of Bohr's atomic model, introduction of the Sommerfeld fine-structure constant (1916), co-discovery with Walther Kossel of the Sommerfeld-Kossel displacement law (1919),[41] and published Atombau und Spektrallinien (1919), which became the “bible”[42] of atomic theory for the new generation of physicists who developed atomic and quantum physics.

In 1918, Sommerfeld succeeded Einstein as chair of the Deutsche Physikalische Gesellschaft (DPG).[43] One of his accomplishments was the founding of a new journal.[44] The scientific papers published in DPG journals became so voluminous, a committee of the DPG, in 1919, recommended the establishment of Zeitschrift für Physik for publication of original research articles, which commenced in 1920. Since any reputable scientist could have their article published without refereeing, time between submission and publication was very rapid – as fast as two weeks time. This greatly stimulated the scientific theoretical developments, especially that of quantum mechanics in Germany at that time, as this was journal was the preferred publication vehicle for the new generation of quantum theorists with avant-garde views.[45]

In the winter semester of 1922/1923, Sommerfeld gave the [[Carl Schurz Memorial Professor of Physics lectures at the University of Wisconsin.[46]

In 1927 Sommerfeld applied Fermi-Dirac statistics to the Drude model of electrons in metals – a model put forth by Paul Drude. The new theory solved many of the problems predicting thermal properties the original model had and became known as the Drude-Sommerfeld model.

In 1928/1929, Sommerfeld traveled around the world with major stops in India,[47] China, Japan, and the United States.

Sommerfeld was a great theoretician, and besides his invaluable contributions to the quantum theory, he worked in other fields of physics, such as the classical theory of electromagnetism. For example, he proposed a solution to the problem of a radiating hertzian dipole over a conducting earth, which over the years led to many applications. His Sommerfeld identity and Sommerfeld integrals are still to the present day the most common way to solve this kind of problem.

Sommerfeld was awarded many honors in his lifetime, such as the Lorentz Medal, the Max-Planck Medal, the Oersted Medal, election to the Royal Society of London, the United States National Academy of Sciences, Academy of Sciences of the USSR, the Indian Academy of Sciences, and other academies including those in Berlin, Munich, Göttingen, and Vienna, as well as having conferred on him numerous honorary degrees from universities including Rostock, Aachen, Calcutta, and Athens.[48]

Notably missing from Sommerfeld’s honors is the Nobel Prize. One can only wonder why this is so, as he was nominated 81 times, more than any other physicist.[49] His many contributions to atomic and quantum physics, as well as the legacy of the many students he educated and nurtured, will, however, stand in its place.

Sommerfeld died in 1951 in Munich from injuries after a traffic accident while walking with his grandchildren.

Books

  • Arnold Sommerfeld "Mathematische Theorie der Diffraction" Math. Ann. 47 317-374 (1896)
    • Arnold Sommerfeld, translated by Raymond J. Nagem, Mario Zampolli, and Guido Sandri Mathematical Theory of Diffraction (Birkhäuser Boston, 2003) ISBN 0817636048
  • Arnold Sommerfeld Atombau und Spektrallinien (Friedrich Vieweg und Sohn, Braunschweig, 1919)
    • Arnold Sommerfeld, translated from the third German edition by Henry L. Brose Atomic Structure and Spectral Lines (Methuen, 1923)
  • Arnold Sommerfeld Atombau und Spektrallinien, Wellenmechanischer Ergänzungband (Vieweg, Braunschweig, 1929)
    • Arnold Sommerfeld, translated by Henry L. Brose Wave-Mechanics: Supplementary Volume to Atomic Structure and Spectral Lines (Dutton, 1929)
  • Arnold Sommerfeld Lectures on Wave Mechanics Delivered before the Calcutta University (Calcutta University, 1929)
  • Arnold Sommerfeld Mechanik - Vorlesungen über theoretische Physik Band 1 (Akademische Verlagsgesellschaft Becker & Erler, 1943)
    • Arnold Sommerfeld, translated from the fourth German edition by Martin O. Stern Mechanics - Lectures on Theoretical Physics Volume I (Academic Press, 1964)
  • Arnold Sommerfeld Mechanik der deformierbaren Medien - Vorlesungen über theoretische Physik Band 2 (Akademische Verlagsgesellschaft Becker & Erler, 1945)
    • Arnold Sommerfeld, translated from the second German edition by G. Kuerti Mechanics of Deformable Bodies - Lectures on Theoretical Physics Volume II (Academic Press, 1964)
  • Arnold Sommerfeld Elektrodynamik - Vorlesungen über theoretische Physik Band 3 (Klemm Verlag, Erscheinungsort, 1948)
    • Arnold Sommerfeld, translated from the German by Edward G. Ramberg Electrodynamics - Lectures on Theoretical Physics Volume III (Academic Press, 1964)
  • Arnold Sommerfeld Optik - Vorlesungen über theoretische Physik Band 4 (Dieterich'sche Verlagsbuchhandlung, 1950)
    • Arnold Sommerfeld, translated from the first German edition by Otto Laporte and Peter A. Moldauer Optics - Lectures on Theoretical Physics Volume IV (Academic Press, 1964)
  • Arnold Sommerfeld Thermodynamik und Statistik - Vorlesungen über theoretische Physik Band 5 (Diederich sche Verlagsbuchhandlung, 1952)
    • Arnold Sommerfeld, edited by F. Bopp and J. Meixner, and translated by J. Kestin Thermodynamics and Statistical Mechanics - Lectures on Theoretical Physics Volume V (Academic Press, 1964)
  • Arnold Sommerfeld Partielle Differentialgleichungen der Physik - Vorlesungen über theoretische Physik Band 6 (Dieterich'sche Verlagsbuchhandlung, 1947)
    • Arnold Sommerfeld, translated by Ernest G. Straus Partial Differential Equations in Physics - Lectures on Theoretical Physics Volume VI (Academic Press, 1964)
  • Felix Klein and Arnold Sommerfeld Über die Theorie des Kreisels [4 volumes] (Teubner, 1897)

Bibliography

  • Cassidy, David C. Uncertainty: The Life and Science of Werner Heisenberg (W. H. Freeman and Company, 1992) ISBN 0-7167-2503-7 (Since Werner Heisenberg was one of Sommerfeld’s Ph.D. students, this is an indirect source of information on Sommerfeld, but the information on him is rather extensive and well documented.)
  • Jungnickel, Christa and Russell McCormmach. Intellectual Mastery of Nature. Theoretical Physics from Ohm to Einstein, Volume 1: The Torch of Mathematics, 1800 to 1870. University of Chicago Press, paper cover, 1990a. ISBN 0-226-41582-1
  • Jungnickel, Christa and Russell McCormmach. Intellectual Mastery of Nature. Theoretical Physics from Ohm to Einstein, Volume 2: The Now Mighty Theoretical Physics, 1870 to 1925. University of Chicago Press, Paper cover, 1990b. ISBN 0-226-41585-6
  • Kragh, Helge Quantum Generations: A History of Physics in the Twentieth Century (Princeton University Press, fifth printing and first paperback printing, 2002) ISBN 0-691-01206-7
  • Mehra, Jagdish, and Helmut Rechenberg The Historical Development of Quantum Theory. Volume 1 Part 1 The Quantum Theory of Planck, Einstein, Bohr and Sommerfeld 1900 – 1925: Its Foundation and the Rise of Its Difficulties. (Springer, 1982) ISBN 0-387-95174-1
Wikiquote has quotations related to Arnold Sommerfeld.
  • Annotated bibliography for Arnold Sommerfeld from the Alsos Digital Library for Nuclear Issues
  • Arnold Sommerfeld Biography – American Philosophical Society (Inlcudes information on his students.)
  • Arnold Sommerfeld Biography – Zurich ETH-Bibliothek
  • Arnold Sommerfeld - die Vektorrechnung
  • Arnold Sommerfled's Students - The Mathematics Genealogy Project
  • Arnold Sommerfeld - the supporter of Indian physics in Germany
  • Hans Bethe talking about his time as Sommerfeld's Student on Peoples Archive
  • O'Connor, John J.; Robertson, Edmund F., "Arnold Sommerfeld", MacTutor History of Mathematics Archive, University of St Andrews
  • Relativitätstheorie — Sommerfeld's 1921 introduction to special and general relativity for general audiences (German)
  • Sommerfeld-Project – Leibniz-Rechenzentrum der Wissenschaften

Notes

  1. ^ The Mathematics Genealogy Project (Arnold Sommerfeld) cites Ferdinand von Lindemann as being Sommerfeld’s Ph.D. dissertation advisor. Cassidy (Cassidy, 1992, pp. 100 – 101) cites Paul Volkmann as Sommerfeld’s advisor and cites a reference. Other authors provide information which can be used to decide between the two, in view of Sommerfeld’s abilities. The English translation of Sommerfeld’s Habilitationsschrift (Arnold Sommerfeld, translated by Raymond J. Nagem, Mario Zampolli, and Guido Sandri Mathematical Theory of Diffraction, Birkhäuser Boston, 2003, pp. 1 -2) reveals that Sommerfeld’s Ph.D. thesis cited 14 of his teachers at the University of Königsberg and thanked all of them, but particularly named Lindemann in the line of gratitude. Jungnickel (Jungnickel, 1990b, pp. 144 – 148 and 157 – 160) is revealing on a number of issues relating to Volkmann. He did little research himself, did not attract physicist, had few publications to his name, and as a physics teacher was a “popularizer.” While Sommerfeld attended classes in Volkmann’s Theoretical Physics Institute at Königsberg, Sommerfeld looked to Volkmann’s assistant Emil Wiechert, rather than Volkmann himself. At the end of the 19th century and the early 20th century, there were only four ordinarius professorships for theoretical physics: Königsberg (Volkmann), Göttingen (Woldemar Voigt), Berlin (Max Planck), and Munich, which had been vacant since Ludwig Boltzmann left in 1894, and would not be filled until Sommerfeld was appointed there in 1906. Comments made on the status of theoretical physics in 1899, Voigt only mentioned Planck, Wilhelm Wien, Paul Drude, and Sommerfeld. In a letter to Sommerfeld in 1898, Wien’s assessment was similar to Voigt’s; Wien only mentioned the chairs at Berlin and Göttingen. Keeping in mind that Munich was unfilled, not mentioning the Volkmann’s chair at Königsberg to Sommerfeld was a glaring omission with implications.
  2. ^ Mehra, Volume 1, Part 1, 1982, p. 106.
  3. ^ Sommerfeld Biography – MacTutor History of Mathematics
  4. ^ Arnold Sommerfeld – Mathematics Genealogy Project. Sommerfeld’s Ph.D. thesis title: Die willkürlichen Functionen in der mathematischen Physik.
  5. ^ Sommerfeld Biography – MacTutor History of Mathematics
  6. ^ Arnold Sommerfeld Biography – American Philosophical Society
  7. ^ Arnold Sommerfeld, translated by Raymond J. Nagem, Mario Zampolli, and Guido Sandri Mathematical Theory of Diffraction (Birkhäuser Boston, 2003) ISBN 0817636048
  8. ^ Sommerfeld Biography – MacTutor History of Mathematics
  9. ^ The title of Sommerfeld’s Habilitation dissertation: Die mathematische Theorie der Beugung
  10. ^ Sommerfeld-Project – Leibniz-Rechenzentrum der Wissenschaften
  11. ^ Sommerfeld Biography – MacTutor History of Mathematics
  12. ^ Arnold Sommerfeld, translated from the fourth German edition by Martin O. Stern Mechanics - Lectures on Theoretical Physics Volume I (Academic Press, 1964), pp. v – x. (Foreword by Paul Peter Ewald and Preface by Sommerfeld.)
  13. ^ Sommerfeld Biography – MacTutor History of Mathematics
  14. ^ Arnold Sommerfeld, translated from the fourth German edition by Martin O. Stern Mechanics - Lectures on Theoretical Physics Volume I (Academic Press, 1964), pp. v – x. (Foreword by Paul Peter Ewald and Preface by Sommerfeld.)
  15. ^ Mehra, Volume 1, Part 1, 1982, p. 106.
  16. ^ Sommerfeld Biography – MacTutor History of Mathematics
  17. ^ Arnold Sommerfeld Biography – American Philosophical Society
  18. ^ Sommerfeld-Project – Leibniz-Rechenzentrum der Wissenschaften
  19. ^ Sommerfeld Biography – MacTutor History of Mathematics
  20. ^ Mehra, Volume 1, Part 1, 1982, p. 106.
  21. ^ Sommerfeld-Project – Leibniz-Rechenzentrum der Wissenschaften
  22. ^ Sommerfeld Biography – MacTutor History of Mathematics
  23. ^ Arnold Sommerfeld Biography – American Philosophical Society
  24. ^ Jungnickel, 1990b, pp. 274, 277-278, and 281-285.
  25. ^ Arnold Sommerfeld, translated from the fourth German edition by Martin O. Stern Mechanics - Lectures on Theoretical Physics Volume I (Academic Press, 1964), pp. v – x. (Foreword by Paul Peter Ewald and Preface by Sommerfeld.)
  26. ^ Arnold Sommerfeld Biography – Zurich ETH-Bibliothek
  27. ^ Arnold Sommerfeld Biography – American Philosophical Society
  28. ^ Jungnickel, 1990b, pp. 157 – 160, 254 ff., 304 ff., and 384 ff.
  29. ^ Arnold Sommerfeld, translated from the fourth German edition by Martin O. Stern Mechanics - Lectures on Theoretical Physics Volume I (Academic Press, 1964), pp. v – x. (Foreword by Paul Peter Ewald and Preface by Sommerfeld.)
  30. ^ Cassidy, 1992, p. 104.
  31. ^ Arnold Sommerfeld, translated from the fourth German edition by Martin O. Stern Mechanics - Lectures on Theoretical Physics Volume I (Academic Press, 1964), pp. v – x. (Foreword by Paul Peter Ewald and Preface by Sommerfeld.)
  32. ^ Arnold Sommerfeld’s Students - The Mathematics Genealogy Project and Arnold Sommerfeld – Kommunikation und Schulenbildung.
  33. ^ Peierls spent 1926-1928 in doctoral studies under Sommerfeld. He then went on to finish his Ph.D. under Wolfgang Pauli, at the University of Leipzig; it was granted in 1929. See: American Philosophical Society Author Catalog: Peierls.
  34. ^ In 1912-1913, Brillouin did undergraduate work with Sommerfeld. He went on to earn his Doctor d'Etat ès Sciences in 1920, at the University of Paris, under Paul Langevin. See: American Philosophical Society Author Catalog: Brillouin.
  35. ^ Through a National Research Council fellowship in 1925-1926 and a Guggenheim Foundation fellowship in 1926-1927, Pauling accomplished postgraduate work with Sommerfeld, Erwin Schrödinger in Zurich, and Niels Bohr in Copenhagen. See: Noble Prize Biography: Pauling.
  36. ^ After earning his Ph.D. in 1927, Rabi, aided by fellowships, went to Europe for two years to do postgraduate work under Sommerfeld, Niels Bohr, Wolfgang Pauli, Otto Stern, and Werner Heisenberg. See: NBWNR – Nobel Foundation: Rabi.
  37. ^ After earning his Ph.D., Condon, in 1926 and 1927, on a National Research Council fellowship, funded by the Rockefeller Foundation, did postgraduate work with Sommerfeld in Munich and Max Born in Göttingen. See: American Institute of Physics: Edward Condon and American Philosophical Society -MOLE: Condon.
  38. ^ Jungnickel, 1990b, p. 284, quoting from references given in Footnote 100 on the page.
  39. ^ Jungnickel, 1990b, p. 284, quoting from references given in Footnote 100 on the page.
  40. ^ Jungnickel, 1990b, p. 283.
  41. ^ Mehra, 1982, Volume 1, Part 1, p. 330.
  42. ^ Kragh, 2002, p. 155.
  43. ^ Sommerfeld-Project – Leibniz-Rechenzentrum der Wissenschaften
  44. ^ Cassidy, 1992, p. 106.
  45. ^ Kragh, 2002, pp. 150 and 168.
  46. ^ Sommerfeld-Project – Leibniz-Rechenzentrum der Wissenschaften
  47. ^ Singh, Rajinder "Arnold Sommerfeld – The Supporter of Indian Physics in Germany" Current Science 81 No. 11, 10 December 2001, pp. 1489-1494
  48. ^ Sommerfeld Biography – MacTutor History of Mathematics
  49. ^ Physics Web: Nobel Population
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