Wojciech Rubinowicz

Wojciech Rubinowicz (1960)

Wojciech Sylwester Piotr Rubinowicz[1] (February 22, 1889 – October 13, 1974) was a Polish theoretical physicist who made contributions in quantum mechanics, mathematical physics, and the theory of radiation. He is known for the Maggie-Rubinowicz representation of Gustav Kirchhoff’s diffraction formula.

Life and career

He was born in Sadagóra, Bukovina, in the Austro-Hungarian Empire the son of Margaret Brodowska and Damian Rubinowicz, Polish patriot and insurgent of the January Uprising of 1863.[2] In 1908, Rubinowicz began his studies at the University of Czernowitz, and he was awarded his doctorate in 1914. In 1916 he began postgraduate studies at the University of Munich under Arnold Sommerfeld and eventually becoming his assistant. In 1918, he became a Privatdozent at the University of Czernowitz. Two years later he took an appointment as professor at the University of Ljubljana, Yugoslavia. He became a professor at the Polytechnic Institute of Lwów, in 1922. During the period from 1937 to 1941, he was a professor at the John Casimir University of Lwów.[3] After World War II, starting in 1946, he was professor of theoretical physics at the University of Warsaw until 1960.[4]

While at Munich, Rubinowicz published contributions to radiation theory[5] and to three of Sommerfeld’s major interests, i.e., Sommerfeld’s extension of Bohr’s theory of the atom[6][7][8] and both mathematical physics and diffraction theory;[9] he carried these topical interests throughout his career.[10][11] He eventually published books based on his mathematical physics interests as well as diffraction theory: his work on the polynomial method of solving eigenvalue problems in quantum mechanics was described in "Sommerfeldsche Polynommethode"[12] and his work on diffraction theory, was published in "Die Beugungswelle in der Kirchhoffschen Theorie der Beugung".[12]

Also while at Munich, Rubinowicz transformed the Kirchhoff diffraction integral into what has become known as the Rubinowicz representation (also known as the Maggie-Rubinowicz representation) for which scalar and electromagnetic fields are interpreted as a transformation of a surface integral into a line integral[9][11] – an independent and slightly different derivation from that done in 1888 by G. A. Maggi,[13] one of Gustav Kirchhoff's students in Berlin. Rubinowicz’s form of the representation, as opposed to Maggi’s, is now more commonly accepted.[14]

The circle of his disciples and associates included in Lwów Jan Blaton, Wanda Hanusowa, Roman Stanisław Ingarden, Wasyl Milianczuk, Jerzy Rayski, in Warsaw Bohdan Karczewski, Wojciech Królikowski, Adam Kujawski, Jan Petykiewicz, Jerzy Plebański.

He died in Warsaw, Poland.

Books

Notes

  1. He is known also as “Adalbert”, the German form of the Polish name “Wojciech”
  2. Rubinowicz Pys. Rev. paper
  3. Mehra, 2001, p. 253.
  4. Adalbert Rubinowicz Zur Quantelung der Hohlraumstrahlung, Phys. Zs 18 (1917) 96-98. As cited in: Mehra, 2001, pp. 534 and 832.
  5. Adalbert Rubinowicz Die Eigenschwingungen des Bohr-Debyeschen Wasserstoffmoleküls bei Berüksichtigung der Bewegung der Kern, Phys. Zs. 18 (1917) 187-195. As cited in: Mehra, 2001, p. 832.
  6. Adalbert Rubinowicz Bohrsche Frequenzbedingung und Erhaltung des Impulsmomentes. I Teil, Phys. Zs. 19 (1918) 441-445. As cited in: Mehra, 2001, pp. 253-54 and 833.
  7. Adalbert Rubinowicz Bohrsche Frequenzbedingung und Erhaltung des Impulsmomentes. II Teil, Phys. Zs. 19 (1918) 465-474. As cited in: Mehra, 2001, pp. 253-54 and 833.
  8. 1 2 Adalbert Rubinowicz Annalen der Physik 53 (1917) 257. As cited in: Sommerfeld, Optics, 1964, pp. 312-317.
  9. Adalbert Rubinowicz Zur Polarisation der Bohrschen Strahlung, Phys. Zs. 4 (1921) 343-346. As cited in: Mehra, 2001, pp. 234 and 833.
  10. 1 2 Adalbert Rubinowicz Annalen der Physik 73 (1924) 339. As cited in: Sommerfeld, Optics, 1964, pp. 312-317.
  11. 1 2 Rubinowicz - University of Warsaw
  12. G. A. Maggi Ann. di Mat. IIa 16 (1888) 21. As cited in: Maggi – Nature.
  13. Azpiroz – UCLA

References

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