Walter Heitler

Walter Heitler

Walter Heinrich Heitler (1904–1981)
Born (1904-01-02)2 January 1904
Karlsruhe, German Empire
Died 15 November 1981(1981-11-15) (aged 77)
Zollikon, Meilen, Switzerland
Nationality German
Fields Quantum mechanics
Institutions Georg-August University of Göttingen
University of Bristol
Dublin Institute for Advanced Studies
University of Zurich
Alma mater Ludwig Maximilian University of Munich
Doctoral advisor Karl Herzfeld
Other academic advisors Arnold Sommerfeld
Notable students Sigurd Zienau
Influenced Linus Pauling
Notable awards Max Planck Medal (1968)
Marcel Benoist Prize (1969)
Fellow of the Royal Society[1]

Walter Heinrich Heitler (German: [ˈhaɪtlɐ]; 2 January 1904 – 15 November 1981) was a German physicist who made contributions to quantum electrodynamics and quantum field theory. He brought chemistry under quantum mechanics through his theory of valence bonding.

Education

In 1922, Heitler began his study of physics at the Karlsruhe Technische Hochschule, in 1923 at the Humboldt University of Berlin, and in 1924 at the Ludwig Maximilians University of Munich (LMU), where he studied under both Arnold Sommerfeld and Karl Herzfeld. The latter was his thesis advisor when he obtained his doctorate in 1926;[2] Herzfeld taught courses in theoretical physics and one in physical chemistry, and in Sommerfeld's absence often took over his classes.[3] From 1926 to 1927, he was a Rockefeller Foundation Fellow for postgraduate research with Niels Bohr at the Institute for Theoretical Physics at the University of Copenhagen and with Erwin Schrödinger at the University of Zurich. He then became an assistant to Max Born at the Institute for Theoretical Physics at the Georg-August University of Göttingen. Heitler completed his Habilitation, under Born, in 1929, and then remained as a Privatdozent until 1933.[4] In that year, he was let go by the university because he was Jewish.[5]

At the time Heitler received his doctorate, three Institutes for Theoretical Physics formed a consortium which worked on the key problems of the day, such as atomic and molecular structure, and exchanged both scientific information and personnel in their scientific quests. These institutes were located at the LMU, under Arnold Sommerfeld, the University of Göttingen, under Max Born, and the University of Copenhagen, under Niels Bohr. Furthermore, Werner Heisenberg and Born had just recently published their trilogy of papers which launched the matrix mechanics formulation of quantum mechanics.[6][7][8] Also, in early 1926, Erwin Schrödinger, at the University of Zurich, began to publish his quintet of papers which launched the wave mechanics formulation of quantum mechanics[9][10][11][12] and showed that the wave mechanics and matrix mechanics formulations were equivalent.[13] These papers immediately put the personnel at the leading theoretical physics institutes onto applying these new tools to understanding atomic and molecular structure. It was in this environment that Heitler went on his Rockefeller Foundations Fellowship, leaving LMU and within a period of two years going to do research and study with the leading figures of the day in theoretical physics, Bohr's personnel in Copenhagen, Schrödinger in Zurich, and Born in Göttingen.

In Zurich, with Fritz London, Heitler applied the new quantum mechanics to deal with the saturable, nondynamic forces of attraction and repulsion, i.e., exchange forces, of the hydrogen molecule. Their valence bond treatment of this problem,[14] was a landmark in that it brought chemistry under quantum mechanics. Furthermore, their work greatly influenced chemistry through Linus Pauling, who had just received his doctorate and on a Guggenheim Fellowship visited Heitler and London in Zurich, as Pauling spent much of his career studying the nature of the chemical bond. The application of quantum mechanics to chemistry would be a prominent theme in Heitler's career.[15][16][17]

While Heitler was at Göttingen, Adolf Hitler came to power in 1933. With the rising prominence of anti-Semitism under Hitler, Born took it upon himself to take the younger Jewish generation under his wing.[18] In doing so, Born arranged for Heitler to get a position that year as a Research Fellow at the University of Bristol, with Nevill Francis Mott.[19][20]

Career

At Bristol, Heitler was a Research Fellow of the Academic Assistance Council, in the H. H. Wills Physics Laboratory. At Bristol, among other things, he worked on quantum field theory and quantum electrodynamics on his own, as well as in collaboration with other scientific refugees from Hitler, such as Hans Bethe and Herbert Fröhlich, who also left Germany in 1933.[21]

With Bethe, he published a paper on pair production of gamma rays in the Coulomb field of an atomic nucleus, in which they developed the Bethe-Heitler formula for Bremsstrahlung.[22][23]

Heitler also contributed to the understanding of cosmic rays,[24][25] as well as predicted the existence of the electrically neutral pi meson.[26]

In 1936, Heitler published his major work on quantum electrodynamics, The Quantum Theory of Radiation, which marked the direction for future developments in quantum theory.[27] The book appeared in many editions and printings, even being translated in Russian.

After the fall of France in 1940, Heitler was briefly interned on the Isle of Man for several months.[20][28]

Heitler remained at Bristol eight years, until 1941, when he became a professor at the Dublin Institute for Advanced Studies, which was arranged there by Erwin Schrödinger, Director of the School for Theoretical Physics.[28][29][30]

At Dublin, Heitler's work with H. W. Peng on radiation damping theory and the meson scattering process resulted in the Heitler-Peng integral equation.[31][32][33]

During the 1942–1943 academic year, Heitler gave a course on elementary wave mechanics, during which W. S. E. Hickson took notes and prepared a finished copy. These notes were the basis for Heitler's book Elementary Wave Mechanics: Introductory Course of Lectures, first published in 1943. A new edition was published as Elementary Wave Mechanics in 1945. This version was revised and republished many times, as well as being translated into French and Italian and published in 1949 and in German in 1961. A further revised version appeared as Elementary Wave Mechanics With Applications to Quantum Chemistry in 1956, as well as in German in 1961.

Schrödinger resigned as Director of the School for Theoretical Physics in 1946, but stayed at Dublin, whereupon Heitler became Director. Heitler stayed at Dublin until 1949, when he accepted a position as Ordinarius Professor for Theoretical Physics and Director of the Institute for Theoretical Physics at the University of Zurich, where he remained until 1974, when he retired.[5][29][30]

In 1958, Heitler held the Lorentz Chair for Theoretical Physics at the University of Leiden.[34]

While in Zurich, after some years, he began writing on the philosophical relationship of science to religion.[35] His books were published in German, English, and French.[29][30]

Quote

Honors

Books

Physics

Science and religion

References

  1. 1 2 Mott, N. (1982). "Walter Heinrich Heitler. 2 January 1904 – 15 November 1981". Biographical Memoirs of Fellows of the Royal Society. 28: 140–151. JSTOR 769896. doi:10.1098/rsbm.1982.0007.
  2. Walter Heitler at the Mathematics Genealogy Project – Dr. phil. Ludwig-Maximilians-Universität München. 1926 Dissertation title: Zur Theorie konzentrierter Lösungen.
  3. Karl Herzfeld
  4. Author Catalog: Heitler – American Philosophical Society
  5. 1 2 Uta Schäfer-Richter, Jörg Klein (1992), p. 93
  6. W. Heisenberg, Über quantentheoretische Umdeutung kinematischer und mechanischer Beziehungen, Zeitschrift für Physik 33 879–893, 1925 (received 29 July 1925). [English translation in: B. L. van der Waerden, editor, Sources of Quantum Mechanics (Dover Publications, 1968) ISBN 0-486-61881-1 (English title: Quantum-Theoretical Re-interpretation of Kinematic and Mechanical Relations).]
  7. M. Born and P. Jordan, Zur Quantenmechanik, Zeitschrift für Physik 34 858–888, 1925 (received 27 September 1925). [English translation in: B. L. van der Waerden, editor, Sources of Quantum Mechanics (Dover Publications, 1968) ISBN 0-486-61881-1]
  8. M. Born, W. Heisenberg, and P. Jordan, Zur Quantenmechanik II, Zeitschrift für Physik 35 557–615, 1925 (received November 1925). [English translation in: B. L. van der Waerden, editor, Sources of Quantum Mechanics (Dover Publications, 1968) ISBN 0-486-61881-1]
  9. Erwin Schrödinger (From the German) Quantization as an Eigenvalue Problem (First Communication), Annalen der Physik 79 (4) 361–376, 1926. [English translation in Gunter Ludwig Wave Mechanics 94–105 (Pergamon Press, 1968) ISBN 0-08-203204-1]
  10. Erwin Schrödinger (From the German) Quantization as an Eigenvalue Problem (Second Communication), Annalen der Physik 79 (6) 489–527, 1926. [English translation in Gunter Ludwig Wave Mechanics 106–126 (Pergamon Press, 1968) ISBN 0-08-203204-1]
  11. Erwin Schrödinger (From the German) Quantization as an Eigenvalue Problem (Third Communication), Annalen der Physik 80 (13) 437–490, 1926.
  12. Erwin Schrödinger (From the German) Quantization as an Eigenvalue Problem (Fourth Communication), Annalen der Physik 81 (18) 109–139, 1926. [English translation in Gunter Ludwig Wave Mechanics 151–167 (Pergamon Press, 1968) ISBN 0-08-203204-1]
  13. Erwin Schrödinger (From the German) On the Relationship of the Heisenberg-Born-Jordan Quantum Mechanics to Mine, Annalen der Physik 79 (8) 734–756, 1926. [English translation in Gunter Ludwig Wave Mechanics 127–150 (Pergamon Press, 1968) ISBN 0-08-203204-1]
  14. Heitler, Walter; London, Fritz (1927). "Wechselwirkung neutraler Atome und homöopolare Bindung nach der Quantenmechanik". Zeitschrift für Physik. 44: 455–472. doi:10.1007/bf01397394.
  15. Mehra, Volume 5, Part 1, 2001, p. 312.
  16. Pauling – Oregon State University
  17. Jammer, 1966, p. 343.
  18. The younger generation of Jewish physicists included Walter Heitler, Lothar Nordheim, Fritz London, and Edward Teller. See Greenspan, 2005, p. 183.
  19. Greenspan, 2005, p. 183.
  20. 1 2 Mott – Bristol Physics in the 1930s
  21. Fröhlich, Heitler, Kemmer.
  22. Hans Bethe and Walter Heitler On the Stopping of Fast Particles and on the Creation of Positive Electrons, Proceedings of the Royal Society of London. Series A Volume 146, Issue 856, pp. 83–112, 1934.
  23. DTIC – Bethe-Heitler formula for Bremsstrahlung
  24. Bhabha, H. J.; Heitler, W. (1937). "The Passage of Fast Electrons and the Theory of Cosmic Showers". , Proceedings of the Royal Society of London. Series A. 159: 432. doi:10.1098/rspa.1937.0082.
  25. Homi Jahangir Bhabha
  26. Fröhlich, H.; Heitler, W.; Kemmer, N. (1938). "On the Nuclear Forces and the Magnetic Moments of the Neutron and the Proton". Proceedings of the Royal Society of London. Series A Mathematical and Physical Sciences. 166 (924): 154–177. doi:10.1098/rspa.1938.0085.
  27. Moore, 1992, p. 376.
  28. 1 2 Moore, 1992, p. 368.
  29. 1 2 3 Heitler in German, French and Italian in the online Historical Dictionary of Switzerland.
  30. 1 2 3 Heitler – Irish University Science
  31. Heitler, W.; Peng, H. W. (1942). "Anomalous Scattering of Mesons". Phys. Rev. 62: 81–82. doi:10.1103/physrev.62.81.
  32. W. Heitler and H. W. Peng, Proc. Camb. Phil. Soc. 1942; 38 , 296.
  33. Hamilton, J.; Heitler, W.; Peng, H. W. "Theory of Cosmic-Ray Mesons". Physical Review. 64 (3–4): 78–94. doi:10.1103/physrev.64.78.
  34. Lorentz Chair – 1958 Walter Heitler
  35. Moore, 1992, p. 445.
  36. Members – Royal Irish Academy
  37. Prize Recipients
  38. Murnaghan, F. D. (1936). "Review: The Quantum Theory of Radiation by W. Heitler". Bull. Amer. Math. Soc. 42: 797. doi:10.1090/S0002-9904-1936-06443-8.
  39. Rosen, D. (31 October 1963). "Review of Man and Science by W. Heitler". New Scientist (363): 281.

Bibliography

Walter Heitler at the Mathematics Genealogy Project

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.