Philip Saffman

Philip Saffman
Born Philip Geoffrey Saffman
(1931-03-19)19 March 1931
Leeds, England
Died 17 August 2008(2008-08-17) (aged 77)
Los Angeles, California, USA
Fields
Institutions
Alma mater
Doctoral advisor George Batchelor[3]
Doctoral students
  • Keri Aivazis
  • Gregory Baker
  • Anatoly Baumstein
  • Francis Bretherton
  • James Buntine
  • Benito Charpentier
  • Antonio Crespo
  • Darren Crowdy[2]
  • Donal Gallagher
  • James Gleeson
  • Seymour Goodman
  • David Hill
  • Dana Hobson
  • James Kamm
  • Doyle Knight
  • Michael Landman
  • Michael Lough
  • David Martin
  • Paul Mazaika
  • John McLean
  • Douglas Reinelt
  • Allen Robinson
  • Louis Romero
  • James Rotenberry
  • Barry Ryan
  • James Schatzman
  • John Sheffield
  • Jeffery Simmen
  • Saleh Tanveer[2]
  • Tyan Yeh
  • Henry Yuen
  • Juan Zufiria[3]
Known for
Notable awards
Spouse Ruth Arion (m. 1954)[2]

Philip Geoffrey Saffman FRS[2] (March 19, 1931 – August 17, 2008) was a mathematician and the Theodore von Kármán Professor of Applied Mathematics and Aeronautics at the California Institute of Technology.[7][8][9][10][11][12][13][14]

Education and early life

Saffman was born in Leeds, England, and educated at Roundhay Grammar School and Trinity College, Cambridge which he entered aged 15.[2] He received his Bachelor of Arts degree in 1953,[2] studied for Part III of the Cambridge Mathematical Tripos in 1954 and was awarded his PhD in 1956 for research supervised by George Batchelor.[3]

Career and research

Saffman started his academic career as a lecturer at the University of Cambridge, then joined King’s College, London as a Reader.[2] Saffman joined the Caltech faculty in 1964 and was named the Theodore von Kármán Professor in 1995. According to Dan Meiron, Saffman “really was one of the leading figures in fluid mechanics,” and he influenced almost every subfield of that discipline. He is known (with his co-author Geoffrey Ingram Taylor) for the Saffman–Taylor instability in viscous fingering of fluid boundaries,[15] a phenomenon important for its applications in enhanced oil recovery, and for the Saffman–Delbrück model of protein diffusion in membranes which he published with his Caltech colleague and Pasadena neighbor Max Delbrück. He made important contributions to the theory of vorticity arising from the motion of ships and aircraft through water and air; his work on wake turbulence led the airlines to increase the minimum time between takeoffs of airplanes on the same runway.[7][16][17] Saffman also studied the flow of spheroidal particles in a fluid, such as bubbles in a carbonated beverage or corpuscles in blood; his work overturned previous assumptions that inertia was an important factor in these particles' motion and showed instead that Non-Newtonian properties of fluids play a significant role.[18][19]

Along with his many research papers,[14] Saffman wrote a book, Vortex Dynamics,[4][5] surveying a field to which he had been a principal contributor. Russel E. Caflisch writes that “This book should be read by everyone interested in vortex dynamics or fluid dynamics in general.”[20][21]

Awards and honours

Saffman was elected a Fellow of the American Academy of Arts and Sciences and a Fellow of the Royal Society in 1986,[2] and the recipient of the American Physical Society's Otto Laporte Award.[7][8][16][22][23] His nomination for the Royal Society reads:

Distinguished for his important contributions to fluid mechanics in more than 140 papers characterized by originality, powerful mathematical analysis, and deep physical insight. The problems he has illuminated include the following: dispersion in porous media, fingering in a Hele-Shaw cell, the interaction of molecular and macroscopic mixing in turbulent fluid, the forces on a small particle in moving fluid, the effect of dust particles on stability of gas flows, the dynamics of homogeneous turbulence, the shear layers bounding a Taylor column, vortex rings, trailing line vortices from aircraft wings, stability of vortex streets, diffusion of macromolecules in cell walls, nonlinear gravity-capillary waves, and instability of finite-amplitude water waves.[6]

Personal life

Saffman was survived by his wife (Ruth Arion who he married in 1954), three children (Mark, Louise, Emma), and eight grandchildren (Timothy, Gregory, Rae, Jenny, Nadine, Aaron, Miriam, Alexandra and Andre).[2][8]

References

  1. Jiménez, J.; Wray, A. A.; Saffman, P. G.; Rogallo, R. S. (2006). "The structure of intense vorticity in isotropic turbulence". Journal of Fluid Mechanics 255: 65. doi:10.1017/S0022112093002393.
  2. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Crowdy, Daniel; Tanveer, Saleh (2014). "Philip Geoffrey Saffman 19 March 1931 -- 17 August 2008". Biographical Memoirs of Fellows of the Royal Society 60: 375. doi:10.1098/rsbm.2014.0021.
  3. 1 2 3 Philip Saffman at the Mathematics Genealogy Project
  4. 1 2 Saffman, Philip G. (1992), Vortex Dynamics, Cambridge University Press, ISBN 978-0-521-47739-0
  5. 1 2 Vladimirov, V. A. (2006). "Vortex Dynamics. By P. G. S AFFMAN . Cambridge University Press, 1992. 311 pp. £35 or $69.95". Journal of Fluid Mechanics 256: 720. doi:10.1017/S0022112093212939.
  6. 1 2 "EC/1988/32: Saffman, Philip Geoffrey". London: The Royal Society. Archived from the original on 2015-03-06.
  7. 1 2 3 Johnson, John, Jr. (August 22, 2008), "Philip Geoffrey Saffman, 1931–2008", Los Angeles Times: B6, archived from the original on 2015-03-06.
  8. 1 2 3 "Obituary Philip G. Saffman 1931-2008", Engineering and Science (Caltech) LXXI (3), Fall 2008: 44
  9. Dale Pullin's lecture on life and work of Philip Saffman
  10. Philip Geoffrey Saffman (1931-2008) tribute by Dale Pullin on YouTube
  11. Pullin, D. I.; Meiron, D. I. (2013). "Philip G. Saffman". Annual Review of Fluid Mechanics 45: 19. doi:10.1146/annurev-fluid-011212-140655.
  12. Stone, H. A. (2000). "Philip Saffman and viscous flow theory". Journal of Fluid Mechanics 409: 165. doi:10.1017/S0022112099007697.
  13. "Philip Geoffrey Saffman, 77". Caltech. 2008. Archived from the original on 2015-03-06.
  14. 1 2 Philip Saffman's publications indexed by the Scopus bibliographic database, a service provided by Elsevier.
  15. Saffman, P. G.; Taylor, G. (1958). "The Penetration of a Fluid into a Porous Medium or Hele-Shaw Cell Containing a More Viscous Liquid". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 245 (1242): 312. Bibcode:1958RSPSA.245..312S. doi:10.1098/rspa.1958.0085.
  16. 1 2 Williams, Janette (August 20, 2008), "Caltech professor, mentor Saffman dies", Pasadena Star-News.
  17. Perkins, Sid (June 22, 2002), Dangerous wake: Wing vortices yield a deadly secret, Science News, archived from the original ( Scholar search) on September 3, 2003.
  18. Stone, H. A. (2000). "Philip Saffman and viscous flow theory". Journal of Fluid Mechanics 409: 165. doi:10.1017/S0022112099007697..
  19. Crawford, D. R.; Saffman, P. G.; Yuen, H. C. (1980). "Evolution of a random inhomogeneous field of nonlinear deep-water gravity waves". Wave Motion 2: 1. doi:10.1016/0165-2125(80)90029-3.
  20. Caflisch, R. E. (1994). "Vortex Dynamics (P. G. Saffman)". SIAM Review 36 (2): 293. doi:10.1137/1036074.
  21. Cullen, M. J. P. (1996). "Vortex dynamics. Edited by P. G. Saffman. Cambridge University Press. Pp. 31 1. Price £17.95 (paperback). ISBN 0 521 47739 5". Quarterly Journal of the Royal Meteorological Society 122 (532): 1015. doi:10.1002/qj.49712253214..
  22. "Pasadena Royal Society Selection", Los Angeles Times, June 16, 1988.
  23. Laporte Award recipients, retrieved August 22, 2008.
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