Ben Roy Mottelson Explained

Ben Roy Mottelson
Birth Date:9 July 1926
Birth Place:Chicago, Illinois, U.S.
Death Place:Copenhagen, Denmark
Citizenship:American, Danish
Field:Nuclear physics
Work Institutions:Nordita
Alma Mater:Purdue University (BS)
Harvard University (PhD)
Doctoral Advisor:Julian Schwinger
Thesis Title:The ground states of lithium-6 and lithium-7
Thesis Year:1950
Thesis Url:http://www.worldcat.org/oclc/76993144
Known For:Geometry of atomic nuclei
Prizes:Atoms for Peace Award (1969)
John Price Wetherill Medal (1974)
Nobel Prize in Physics (1975)
Marian Smoluchowski Medal (1980)
Spouse:Nancy Jane Reno (1948–1975; 3 children)

Ben Roy Mottelson (9 July 1926 – 13 May 2022) was an American-Danish nuclear physicist. He won the 1975 Nobel Prize in Physics for his work on the non-spherical geometry of atomic nuclei.

Early life

Mottelson was born in Chicago, Illinois, on 9 July 1926, the son of Georgia (Blum) and Goodman Mottelson, an engineer. His family was Jewish.[1] After graduating from Lyons Township High School in La Grange, Illinois, he joined the United States Navy and was sent to attend officers training at Purdue University, where he received a bachelor's degree in 1947. He then earned a PhD in nuclear physics from Harvard University in 1950. His thesis adviser was Julian Schwinger, the theoretical physicist who later won the Nobel Prize in 1965 for his work on quantum electrodynamics.

Career

He moved to Institute for Theoretical Physics (later the Niels Bohr Institute) at the University of Copenhagen on the Sheldon Traveling Fellowship from Harvard, and remained in Denmark. In 1953 he was appointed staff member in CERN's Theoretical Study Group, which was based in Copenhagen,[2] a position he held until he became professor at the newly formed Nordic Institute for Theoretical Physics (Nordita) in 1957. He was a visiting professor at the University of California, Berkeley in Spring 1959.[3] In 1971 he became a naturalized Danish citizen.[4]

In 1950–1951, James Rainwater and Aage Bohr had developed models of the atomic nucleus which began to take into account the behaviour of the individual nucleons. These models, which moved beyond the simpler liquid drop treatment of the nucleus as having effectively no internal structure, were the first models which could explain a number of nuclear properties, including the non-spherical distribution of charge in certain nuclei. Mottelson worked with Aage Bohr to compare the theoretical models with experimental data. In 1952–1953, Bohr and Mottelson published a series of papers demonstrating close agreement between theory and experiment, for example showing that the energy levels of certain nuclei could be described by a rotation spectrum.[5] [6] [7] [8] This work stimulated new theoretical and experimental studies.

In the summer of 1957, David Pines visited Copenhagen, and introduced Bohr and Mottelson to the pairing effect developed in theories of superconductivity, which inspired them to introduce a similar pairing effect to explain the differences in the energy levels between even and odd atomic nuclei.[9]

Nobel Prize (1975)

Rainwater, Bohr and Mottelson were jointly awarded the 1975 Nobel Prize in Physics "for the discovery of the connection between collective motion and particle motion in atomic nuclei and the development of the theory of the structure of the atomic nucleus based on this connection".[10]

Post–Nobel Prize work

Bohr and Mottelson continued to work together, publishing a two-volume monograph, Nuclear Structure. The first volume, Single-Particle Motion, appeared in 1969,[11] [12] and the second volume, Nuclear Deformations, in 1975.[13] [14]

Professor Mottelson was a member of the board of sponsors of the Bulletin of the Atomic Scientists.[15]

He was an honorary member of the Finnish Society of Sciences and Letters, a member of the American Philosophical Society,[16] and a foreign fellow of Bangladesh Academy of Sciences[17] and the Norwegian Academy of Science and Letters.[18] In 1969, he received the Atoms for Peace Award.[19] He acted as director of ECT* (Trento, Italy) from 1993 to 1997.[20]

Personal life

Mottelson was a dual citizen, as he held both Danish and American passports. He lived in Copenhagen. Mottelson was married to Nancy Jane Reno from 1948 until her death in 1975, and they had two sons and one daughter. Mottelson then married Britta Marger Siegumfeldt in 1983.[21]

He died on 13 May 2022, in Copenhagen at the age of 95.[22] [23] [24]

See also

External links

Notes and References

  1. Web site: Jewish Nobel Prize Winners in Physics . 2023-03-29 . www.jinfo.org.
  2. Web site: Prof. Ben Mottelson. Scholarpedia . 11 June 2015.
  3. Web site: Ben R. Mottelson – Biographical. Nobel Foundation. 1 June 2017.
  4. News: 16 May 2022 . Ben Roy Mottelson er død . Ben Roy Mottelson has died . . Ritzau . 16 May 2022.
  5. Aage. Bohr. Aage Bohr. The Coupling of Nuclear Surface Oscillations to the Motion of Individual Nucleons. 1952. Matematisk-fysiske Meddelelser. Royal Danish Academy of Sciences and Letters. 26. 14.
  6. Aage. Bohr. Aage Bohr. Ben R.. Mottelson. Collective and Individual-Particle aspects of Nuclear Structure. 1953. Matematisk-fysiske Meddelelser. Royal Danish Academy of Sciences and Letters. 27. 16.
  7. Interpretation of Isomeric Transitions of Electric Quadrupole Type . Bohr . Aage . Mottelson . Ben R. . . 89 . 1 . 316–317 . January 1953 . American Physical Society . 10.1103/PhysRev.89.316 . 1953PhRv...89..316B .
  8. Rotational States in Even-Even Nuclei . Bohr . Aage . Mottelson . Ben R. . . 90 . 4 . 717–719 . May 1953 . American Physical Society . 10.1103/PhysRev.90.717.2 . 1953PhRv...90..717B .
  9. Bohr . A. . Mottelson . B. R. . Pines . D. . Possible Analogy between the Excitation Spectra of Nuclei and Those of the Superconducting Metallic State . Physical Review . American Physical Society (APS) . 110 . 4 . 15 May 1958 . 0031-899X . 10.1103/physrev.110.936 . 936–938. 1958PhRv..110..936B .
  10. http://nobelprize.org/nobel_prizes/physics/laureates/1975/ Nobel prize citation
  11. Book: Bohr . Aage . Mottelson . Ben R. . Nuclear structure . 1969 . W.A. Benjamin . 978-0-8053-1016-0.
  12. Breit . G. . Nuclear Structure, Vol. 1, Aage Bohr and Ben R. Mottelson . Physics Today . September 1970 . 23 . 9 . 58–60 . 10.1063/1.3022342 . 21 May 2022 . Book review.
  13. Book: Bohr . Aage . Mottelson . Ben R. . Nuclear Structure: Volume II (Nuclear Deformations) . 1975 . Basic Books . 0-8053-1016-9 . 21 May 2022 . en.
  14. Breit . Gregory . Brown . Gerald E. . Nuclear Structure, Vol. 2: Nuclear Deformations, A. Bohr and B. R. Mottelson . Physics Today . March 1977 . 30 . 3 . 59–62 . 10.1063/1.3037453 . 21 May 2022 . Book review . 0031-9228.
  15. http://www.thebulletin.org/content/about-us/board-of-sponsors Bulletin of the Atomic Scientists – Board of Sponsors
  16. Web site: APS Member History. 31 March 2021. search.amphilsoc.org.
  17. Web site: List of Fellows of Bangladesh Academy of Sciences . 4 August 2016 . dead . https://web.archive.org/web/20100415000333/http://www.bas.org.bd/list-of-fellows/userslist.html . 15 April 2010 .
  18. Web site: Gruppe 2: Fysikkfag (herunder astronomi, fysikk og geofysikk). Norwegian Academy of Science and Letters. no. 7 October 2010. 27 September 2011. https://web.archive.org/web/20110927171005/http://www.dnva.no/c26849/artikkel/vis.html?tid=40118. dead.
  19. Marshak . Robert E. . Atoms for Peace Awards: Six scientists are honored for their contributions in development of peaceful uses for the atom. . Science . 27 June 1969 . 164 . 3887 . 1496–1498 . 10.1126/science.164.3887.1496 . 1726917 . 17748526 . 4249080 . 21 May 2022 . 0036-8075.
  20. Web site: ECT* Past Directors . FBK ECT* . European Centre for Theoretical Studies in Nuclear Physics and Related Areas . 21 May 2022.
  21. Book: MTI ki kicsoda. 2009. 978-963-17-8728-3.
  22. Web site: Ben Roy Mottelson er død. 16 May 2022. 18 May 2022. BT.dk. da.
  23. Web site: Dansk nobelprisvinder er død. Politiken. da. 16 May 2022. 17 May 2022.
  24. News: McClain . Dylan Loeb . Ben Roy Mottelson Dies at 95; Shed Light on the Shape of Atoms . 20 May 2022 . The New York Times . 19 May 2022.