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Harris Mayer

Summary

Harris Louis Mayer (February 15, 1921 – September 17, 2023) was an American physicist known for his collaboration with Edward Teller and John von Neumann.[2][3][4] He worked on the Manhattan Project.[5] Mayer also worked on Project Orion. His work had to do with opacity, mostly in the context of atmospheric opacity to nuclear radiation.

Harris Mayer
Born
Harris Louis Mayer[1]

(1921-02-15)February 15, 1921
New York, U.S.
DiedSeptember 17, 2023(2023-09-17) (aged 102)
NationalityAmerican
Scientific career
FieldsPhysics, Mathematics

Early work edit

In late 1945, Harris Mayer was a student of Maria Goeppert-Mayer (wife of chemist Joseph Edward Mayer and neither of whom had any relation to Harris). Edward Teller invited Maria Goeppert-Mayer and two of her students (Boris Jacobsohn and Harris Mayer) to the Los Alamos National Laboratory.[6] Mayer's early work at the lab had to do with the development of the thermonuclear bomb. The bomb was not a part of the main mission of the Los Alamos Lab, but volunteers among the scientists became involved. Mayer wrote a history of the lab in this era where he describes his contribution as the calculations of the equations of state and radiative transfer opacities.[7]

Problem of opacity edit

The problem of opacity in the bomb was based on a concern that low opacity will allow radiation to escape rapidly giving the bomb less energy and a slower buildup of pressure during the explosion. This, "low opacity" would mean a more efficient bomb. While this did not greatly matter in fission bombs, it was very important in connection with hydrogen bombs where the transfer of energy between the fission and fusion devises is important. Teller presented the idea that the absorption of radiation was different at high and low frequencies, at high frequencies all frequencies are absorbed, but at lower frequencies absorption occurs more specifically at specific lines and allows more energy transfer, and Mayer carried out many of the related calculations.[6] Opacity is generally calculated based on average opacities using Planck or Rosseland opacity functions. However, these averages generalize many one-electron transitions that can take place in a large number of atomic bound electron configurations. Harris' work was the first to calculate opacity including the full effects of line absorption.[8]

Edward Teller wrote in 1955 that Mayer worked with another student, John Reitz, and that they were supervised by Teller and by Frank Hoyt, a professor at the University of Chicago. Teller emphasizes how the efforts of Teller and others during World War II were sustained by these scientists joining the lab at Los Alamos. The calculations of Mayer and Reitz were carried to conclusion by another student, Marshall Rosenbluth.[9] Mayer was granted a PhD based on this work once it was declassified after the war. A bonus of Harris' participation was that his father was a distributor of liquor, and had access to more alcohol than was generally available due to rations during World War II.[6]

The best-known and most widely used model of absorption bands in atmospheric opacity is due to the work of Richard M. Goody in 1952, and the model was initially known as the Goody random model. It was later discovered that Mayer's work at Los Alamos, which was published in 1947, had made similar calculations. Many sources therefore now call the model the Mayer-Goody model or the Mayer-Goody statistical model.[10] Mayer, however, stated that he believed the model should most properly be credited to Teller.[6] Arthur N. Cox developed a method for computing stellar opacity that was also influential and was based primarily on Mayer's 1947 work, which Mayer initially called the "Mayer Independent Electron" method for calculations at high temperatures and the "Ionic" method at lower temperatures.[11][12]

Mayer also participated in field experiments for post-war nuclear tests on Parry Island.[13]

Orion Project and later work edit

In 1958, Mayer was hired as a consultant on the Orion Project. His contribution included working with Freeman Dyson and Rosenbluth to help estimate the opacity of the propellant and its effect on the propellant's potential power.[14]

Later in his career, Mayer studied how space tethers could be used for propulsion in space similar to gravity assists but with objects without a significant gravitational pull.[15]

Death edit

Harris Mayer died on September 17, 2023, at the age of 102.[16]

Documentaries edit

Key works edit

  • Mayer, Harris, "Methods of Opacity Calculations" Los Alamos Scientific, Laboratory Report, LA 647 (October 1947)
  • Penzo, P. A., and Mayer, H. L., "Tethers and Asteroids for Artificial Gravity Assist in the Solar System." Journal of Spacecraft and Rockets. Vol. 23, No. 1 (Jan.-Feb. 1986).

Citations edit

  1. ^ "Harris Louis Mayer". U.S., World War II Draft Cards Young Men, 1940–1947. Archived from the original on February 7, 2023. Retrieved February 1, 2023.
  2. ^ Teller, Edward; Schoolery, Judith (September 9, 2009). Memoirs: A Twentieth Century Journey in Science and Politics. Basic Books. p. 192. ISBN 978-0-7867-5170-9.
  3. ^ George Dyson (March 1, 2012). Turing's Cathedral: The Origins of the Digital Universe. Penguin Books Limited. p. 13. ISBN 978-0-7181-9450-5.
  4. ^ Neumann, Cora (December 12, 1997). "In a secret U.S. city, scientists build Jewish ties amid isolation". J. Archived from the original on May 12, 2016. Retrieved August 22, 2016.
  5. ^ Thomas Haigh; Mark Priestley; Crispin Rope (February 5, 2016). ENIAC in Action: Making and Remaking the Modern Computer. MIT Press. pp. 201–2. ISBN 978-0-262-03398-5.
  6. ^ a b c d Teller, Edward, and Judith Schoolery. Memoirs: A Twentieth Century Journey in Science and Politics. Basic Books, 2009. p 98-100, 178-203
  7. ^ Mayer, Harris, 'People of the Hill - The Early Days", Los Alamos Science, Number 28, 2003, page 2-31 accessed August 22, 2016 at http://permalink.lanl.gov/object/tr?what=info:lanl-repo/lareport/LA-UR-03-3837 Archived December 23, 2016, at the Wayback Machine
  8. ^ Stephen B. Libby; Karl A. Van Bibber (2010). Edward Teller Centennial Symposium: Modern Physics and the Scientific Legacy of Edward Teller : Livermore, CA, USA, 28 May 2008. World Scientific. pp. 96–103. ISBN 978-981-283-800-1.
  9. ^ Teller, Edward, "The Work of Many People", Science, New Series, Vol. 121, No. 3139 (Feb. 25, 1955), pp. 267-275, page 271
  10. ^ Timofeyev, Yu M., and Aleksander Vladimirovich Vasilʹev. Theoretical fundamentals of atmospheric optics. Cambridge Int Science Publishing, 2008. p294
  11. ^ Michels, Thomas E. Kaskel, Ira, Meyer Sheila, "Stellar Opacity Program Manual STOP, Preliminary Report", Goddard Space Flight Center, Greenbelt, Maryland, February 1968 p 5
  12. ^ Cox's early work cited by Michels et al is: Cox, Arthur N. "Stellar absorption coefficients and opacities." In Aller, L. H. and McLaughlin, D. B. Stellar Structure-Stars and Stellar Systems, vol. 8, University of Chicago Press, Chicago and London, 1965, p. 195.
  13. ^ Rosemary B. Mariner; G. Kurt Piehler (2009). The Atomic Bomb and American Society: New Perspectives. Univ. of Tennessee Press. pp. 266–8. ISBN 978-1-57233-648-3.
  14. ^ Dyson, George. Project Orion: The True Story of the Atomic Spaceship. Macmillan, 2002. p 123
  15. ^ Cosmo, Mario L., and E. C. Lorenzini, eds. "Tethers in space handbook Archived February 28, 2022, at the Wayback Machine." NASA/CR-97-206807 (1997), p 171. Accessed August 23, 2016 from the NASA Technical Reports Server.
  16. ^ Clark, Carol A. (October 1, 2023). "Obituary: Harris Louis Mayer Feb. 15, 1921 – Sept. 17, 2023". Los Alamos Daily Post.

References edit

  • Dyson, George (2003). Project Orion: The True Story of the Atomic Spaceship. Henry Holt and Co. ISBN 0805072845. OCLC 51918543.
  • Dyson, George (2012). Turing's Cathedral: The Origins of the Digital Universe. Pantheon Books. ISBN 9780375422775. OCLC 745979775.
  • Ford, Kenneth W. (2015). Building the H Bomb: A Personal History. World Scientific.
  • Libby, Leona Marshall (1979). The Uranium People. Crane, Russak. ISBN 0844813001. OCLC 4665032.

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