Max von Laue
Max von Laue
BornOctober 9 1879
Pfaffendorf, Germany
DiedApril 24, 1960(1960-04-24) (aged 80)
Berlin Germany
Nationality German
Alma materUniversity of Strassburg
University of Göttingen
University of Munich
University of Berlin
University of Göttingen
Known forDiffraction of X-rays
AwardsFile:Nobel.svg Nobel Prize for Physics (1914)
Scientific career
FieldsPhysicist
InstitutionsUniversity of Zürich
University of Frankfurt
University of Berlin
Max Planck Institute
Doctoral advisorMax Planck File:Nobel.svg
Doctoral studentsFritz London
Leó Szilárd
Max Kohler
Erna Weber

Max Theodore Felix von Laue (October 9, 1879 in Pfaffendorf, near KoblenzApril 24, 1960 in Berlin) was a German physicist who won the Nobel Prize in Physics in 1914 for his discovery of the diffraction of X-rays by crystals. He was staunchly and openly in opposition to National Socialism. In addition to his scientific endeavors with contributions in optics, crystallography, quantum theory, superconductivity, and the theory of relativity, he held a number of administrative positions which advanced and guided German scientific research and development over four decades. He was instrumental in re-establishing and organizing German science after World War II.

Education

In 1898, after Abitur in Strasbourg, Laue entered his compulsory year of military service, after which he began his studies in mathematics, physics, and chemistry, in 1899, at the University of Strasbourg, the Georg-August University of Göttingen and the Ludwig Maximilians University of Munich (LMU). At Göttingen, he was greatly influenced by the physicists Woldemar Voigt and Max Abraham and the mathematician David Hilbert. After only one semester at Munich, he went to the Friedrich-Wilhelms-University of Berlin (Today: Humboldt University of Berlin), in 1902. There, he studied under Max Planck, who gave birth to the quantum theory revolution on 14 December 1900, when he delivered his famous paper before the Deutsche Physikalische Gesellschaft.[1] [2] At Berlin, Laue attended lectures by Otto Lummer on heat radiation and interference spectroscopy, the influence of which can be seen in Laue’s dissertation on interference phenomena in plane-parallel plates, for which he received his doctorate in 1903.[3] Thereafter, Laue spent 1903 to 1905 at Göttingen. Laue completed his Habilitation [4] in 1906 under Arnold Sommerfeld at LMU.[5][6][7][8][9]

Career

After Habilitation in 1906, Laue was a Privatdozent at Berlin and an assistant to Planck. That same year, he also met Albert Einstein for the first time; they became friends and von Laue went on to contribute to the acceptance and development of Einstein’s theory of relativity. Laue continued as assistant to Planck until 1909. At Berlin, he worked on the application of entropy to radiation fields and on the thermodynamic significance of the coherence of light waves.[7] [9]

From 1909 to 1912, he was a Privatdozent at the Institute for Theoretical Physics, under Arnold Sommerfeld, at LMU. During the 1911 Christmas recess and in January 1912, Paul Peter Ewald was finishing the writing of his doctoral thesis under Sommerfeld. It was on a walk through Englische Garten in Munich, in January, that Ewald was telling Laue about his thesis topic. The wavelengths of concern to Ewald were in the visible region of the spectrum and hence much larger than the spacing between the resonators in Ewald’s crystal model. Laue seemed distracted and wanted to know what would be the effect if much smaller wavelengths were considered. In June, Sommerfeld reported to the Physikalische Gesellschaft of Göttingen on the successful diffraction of X-rays by Laue, Paul Knipping and Walter Friedrich at LMU, for which Laue would be awarded the Nobel Prize in Physics, in 1914. While at Munich, he wrote the first volume of his book on relativity during the period 1910 to 1911.[10] [11][8][9]

In 1912, Laue was called to the University of Zurich as an extraordinarius professor of physics. In 1913, his father was raised to the ranks of hereditary nobility; Laue then became von Laue.[9]

From 1914 to 1919, von Laue was at the Johann Wolfgang Goethe University of Frankfurt am Main as ordinarius professor of theoretical physics. From 1916, he was engaged in vacuum tube development, at the Bayerische Julius-Maximilians-Universität Würzburg, for use in military telephony and wireless communications.[8][7] [9] [6]

In 1919, von Laue was called to the Humboldt University of Berlin as ordinarius professor of theoretical physics, a position he held until 1943, when von Laue was declared emeritus, with his consent and one year before the mandatory retirement age. At the University in 1919, other notables were Walther Nernst, Fritz Haber, and James Franck. Von Laue, as one of the organizers of the weekly Berlin Physics Colloquium, typically sat in the front row with Nernst and Albert Einstein, who would come over from the Kaiser-Wilhelm-Institut für Physik (Today: Max-Planck-Institut für Physik) in Dahlem-Berlin, where he was the Director. Among von Laue’s notable students at the University were Leó Szilárd, Fritz London, Max Kohler, and Erna Weber. In 1921, he published the second volume of his book on relativity.[6] [8] [12] [13]

As a consultant to the Physikalisch-Technische Reichsanstalt (Today: Physikalisch-Technische Bundesanstalt), von Laue met Walther Meissner who was working there on superconductivity. Meissner had discovered that a weak magnetic field decays rapidly to zero in the interior of a superconductor, which is known as the Meissner effect. Von Laue showed in 1932 that the threshold of the applied magnetic field which destroys superconductivity varies with the shape of the body. Von Laue published a total of 12 papers and a book on superconductivity. One of the papers was co-authored with Fritz London and his brother Heinz.[14] [7] [15] [16] Meissner published a biography on von Laue in 1960.[17]

The Kaiser-Wilhelm Gesellschaft zur Förderund der Wissenschaften (Today: Max-Planck Gesellschaft zur Förderund der Wissenschaften) was founded in 1911. Its purpose was to promote the sciences by founding and maintaining research institutes. One such institute was the Kaiser-Wilhelm Institut für Physik (KWIP) founded in Dahlem-Berlin in 1914, with Albert Einstein as director. Von Laue was a trustee of the institute from 1917, and in 1922 he was appointed deputy director, whereupon von Laue took over the administrative duties from Einstein. Einstein was traveling abroad when Adolf Hitler became Chancellor in January 1933, and Einstein did not return to Germany. Von Laue then became acting director of the KWIP, a position he held until 1946 or 1948, except for the period 1935 to 1939, when Peter Debye was director. In 1943, to avoid casualties to the personnel, the KWIP moved to Hechingen. It was at Hechingen that von Laue wrote his book on the history of physics Geschichte der Physik, which was eventually translated into seven other languages.[18] [19] [7]

Von Laue was in opposition to National Socialism in general and their Deutsche Physik in particular – the former persecuted the Jews, in general, and the latter, among other things, put down Einstein’s theory of relativity as Jewish physics. Von Laue secretly helped scientific colleagues persecuted by National Socialist policies to emigrate from Germany, but he also openly opposed them. An address on 18 September 1933 at the opening of the physics convention in Würzburg, opposition to Johannes Stark, an obituary note on Fritz Haber in 1934, and attendance at a commemoration for Haber are examples which clearly illustrate von Laue’s courageous, open opposition:

The speech and the obituary note earned von Laue government reprimands. Furthermore, in response to von Laue blocking Stark’s regular membership in the Preußische Akademie der Wissenschaften, Stark, in December 1933, had von Laue sacked from his position as advisor to the Physikalisch-Technische Reichsanstalt (PTR), which von Laue had held since 1925. (Chapters 4 and 5, in Welker’s Nazi Science: Myth, Truth, and the Atomic Bomb, present a more detailed account of the struggle by von Laue and Plank against the Nazi takeover of the Preußischen Akademie der Wissenschaften.[23]) [24] [25] [26] [27] [28]

On 23 April 1945, French troops entered Hechingen, followed the next day by a contingent of Operation Alsos – an operation to investigate the German nuclear energy effort, seize equipment, and prevent German scientists from being captured by the Russians. The scientific advisor to the Operation was the Dutch-American physicist Samuel Goudsmit, who, adorned with a steel helmet, appeared at von Laue’s home. Von Laue was taken into custody and taken to Huntington, England and interned at Farm Hall, with other scientists thought to be involved in nuclear research and development.[29]

While incarcerated, von Laue was a reminder to the other detainees that one could survive the Nazi reign without having “compromised”; this alienated him from others being detained.[30] During his incarceration, von Laue wrote a paper on the absorption of x-rays under the interference conditions, and it was later published in Acta Crystallographica.[31] On 2 October 1945, von Laue, Otto Hahn, and Werner Heisenberg, were taken to meet with Henry Hallett Dale, president of the Royal Society, and other members of the Society. There, von Laue was invited to attend the 9 November 1945 Royal Society meeting in memory of the German physicist Wilhelm Conrad Röntgen, who discovered X-rays; permission was, however, not forthcoming from the military authorities detaining von Laue.[32]

Von Laue was returned to Germany early in 1946. He went back to being acting director of the KWIP, which had been moved to Göttingen. It was also in 1946 that the Kaiser-Wilhelm Gesellschaft was renamed the Max-Planck Gesellschaft, and, likewise, the Kaiser-Wilhelm Institut für Physik became the Max-Planck Institut für Physik. Von Laue also became an adjunct professor at the Georg-August University of Göttingen. In addition to his administrative and teaching responsibilities, von Laue wrote his book on superconductivity, Theorie der Supraleitung, and revised his books on electron diffraction, Materiewellen und ihre Interferenzen, and the first volume of his two-volume book on relativity.[33] [34][8]

In July 1946, von Laue went back to England, only four months after having been interned there, to attend an international conference on crystallography. This was a distinct honor, as he was the only German invited to attend. He was extended many courtesies by the British officer who escorted him there and back, and a well-known English crystallographer as his host; von Laue was even allowed to wander around London on his own free will.[35]

After the War, there was much to be done in re-establishing and organizing German scientific endeavors. Von Laue participated in some key roles. In 1946, von Laue initiated the founding of the Deutsche Physikalische Gesellschaft in only the British Zone, as the Allied Control Council would not initially allow organizations across occupation zone boundaries. During the war, the Physikalisch-Technische Reichsanstalt had been dispersed; von Laue, from 1946 to 1948, worked on its re-unification across three zones and its location at new facilities in Braunschweig. Additionally, it took on a new name as the Physikalisch-Technische Bundesanstalt, but administration was not taken over by Germany until after the formation of the Deutsche Bundesrepublik on 23 May 1949. Circa 1948, the President of the American Physical Society asked von Laue to report on the status of physics in Germany; von Laue’s report was published in 1949 in the American Journal of Physics.[36] In 1950, von Laue participated in the creation of the Verband Deutsches Physikalischer Gesellschaften, formerly affiliated under the Nordwestdeutsch Physikalische Gesellschaft.[37] [38][8]

In April 1951, von Laue became director of the Max-Planck Institut für physikalische Chemie und Elektrochemie, a position he held until 1959. In 1953, at the request of von Laue, the Institute was renamed the Fritz Haber Institut für physikalische Chemi und Elektrochemie der Max-Planck Gesellschaft.[39] [40]

On April 8, 1960, while driving to his laboratory, von Laue’s car was struck by a motor cyclist, who had received his license only two days earlier. The cyclist was killed and von Laue’s car was overturned. Von Laue died from his injuries sixteen days later on April 24.[7]

Organizations

Honors

Personal

It was in 1913 that Laue’s father, Julius Laue, a civil servant in the military administration, was raised into the ranks of hereditary nobility. Thus Max Laue became Max von Laue.[9]

Von Laue married Magdalene Degen, while he was a Privatdozent at LMU. They had two children.[9]

Among von Laue’s chief recreational activities were mountaineering, motoring in his automobile, motor-biking, sailing, and skiing. While not a mountain climber, he did enjoy hiking on the Alpine glaciers with his friends.[7]

Books

Stamp

Selected literature

Bibliography

Notes

  1. ^ B. L. van der Waerden, editor Sources of Quantum Mechanics (Dover, 1968) p. 1.
  2. ^ Max Planck Zur Theorie des Gesetzes der Energieverteilung im Normalspektrum, Verhandlungen der Deutschen Physikalische Gesellschaft 2 237-245 (1900) as cited in Hans Kango, editor, and translated by D. ter Haar and Stephen G. Bush Planck’s Original Papers in Quantum Physics: German and English Edition (Taylor and Francis, 1972) p. 60.
  3. ^ Max von Laue – Mathematics Genealogy Project. Max von Laue, Ph.D., Universität Berlin, 1903, Dissertation title: Über die Interferenzerscheinungen an planparallelen Platten.
  4. ^ Habilitation title: "Über die Entropie von interferierenden Strahlenbündeln"
  5. ^ Walker, 1995, p73.
  6. ^ a b c Max von Laue – American Philosophical Society Author Catalog
  7. ^ a b c d e f g h i j k l m n o p Max von Laue – Nobel Prize Biography
  8. ^ a b c d e f g h i j Hentschel, 1996, Appendix F, see entry for Max von Laue.
  9. ^ a b c d e f g h i Max von Laue Biography – Deutsches Historisches Museum Berlin
  10. ^ Ewald 50 Years of X-Ray Diffraction Chapter 4, pp. 37-42.
  11. ^ Jungnickel, Volume 2, 1990, pp. 284-285.
  12. ^ Max von Laue – Mathematics Genealogy Project
  13. ^ Lanouette, 1992, pp. 56-58.
  14. ^ Max von Laue My Development as a Physicist p. 298.
  15. ^ Max von Laue Biography – University of Frankfurt on Main
  16. ^ Fritz London Publications – Duke University
  17. ^ Walther Meißner Max von Laue als Wissenschaftler und Mensch (Verl. d. Bayer. Akademie d. Wissenschaften, 1960) and (C. H. Beck Verlag, 1986)
  18. ^ Hentschel, 1966, Appendix F, see entries for von Laue and Debye.
  19. ^ Hentschel, 1966, Appendix A, see entries for KWG and KWIP.
  20. ^ Max von Laue Naturwissenschaften 22 97 (1934).
  21. ^ Hentschel, 1996, Document #29, pp. 76-78: See Footnote #3.
  22. ^ Hentsche, 1996, Documtent #120, pp. 400-402: A letter from Lise Meitner to Otto Hahn.
  23. ^ Welker, 1995, pp. 65 – 122.
  24. ^ Max von Laue My Development as a Physicist pp. 298 and 304-307.
  25. ^ Hentschel, 1966, Appendix F, see entries for Max von Laue, Johannes Stark, and Fritz Haber.
  26. ^ Hentschel, 1966, Appendix A, see entry for the DFG.
  27. ^ Heilbron, 1996, pp. 159-162 and 167-168.
  28. ^ Beyerchen, 1977, pp. 64-69 and 208-209.
  29. ^ Max von Laue My Development as a Physicist p. 299 - 300.
  30. ^ Bernstein, 2001, pp. 333-334.
  31. ^ Max von Laue My Development as a Physicist p. 300.
  32. ^ Max von Laue My Development as a Physicist p. 302.
  33. ^ Max von Laue My Development as a Physicist p. 300.
  34. ^ Hentschel, 1996, Appendix A, see entries on KWG and KWIP.
  35. ^ Max von Laue My Development as a Physicist p. 302-303.
  36. ^ Max von Laue A Report on the State of Physics in Germany, American Journal of Physics 17 (3) 137-141 (1949)
  37. ^ Max von Laue My Development as a Physicist p. 301
  38. ^ Hentschel, 1996, Appendix A, see entries on KWG and KWIP.
  39. ^ Max von Laue My Development as a Physicist p. 300
  40. ^ Hentschel, 1996, Appendix A, see entry on KWIPC.
  41. ^ Hentschel, 1966, Appendix A, see entry for NG.
1901–1925
1926–1950
1951–1975
1976–2000
2001–
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