Mark Newman

Mark Newman is an English-American physicist and Anatol Rapoport Distinguished University Professor of Physics at the University of Michigan, as well as an external faculty member of the Santa Fe Institute. He is known for his fundamental contributions to the fields of complex networks and complex systems, for which he was awarded the 2014 Lagrange Prize.

For the sculptor and illustrator, see Mark Newman (sculptor). For the American baseball executive, see Mark Newman (baseball).
Mark Newman
Born
Bristol, England
Alma materMerton College, Oxford
Scientific career
FieldsPhysics
InstitutionsUniversity of Michigan
Santa Fe Institute
Doctoral advisorDavid Sherrington

Career

Mark Newman grew up in Bristol, England, where he was a pupil at Bristol Cathedral School, and earned both an undergraduate degree and a PhD in physics from the University of Oxford, before moving to the United States to conduct research first at Cornell University and later at the Santa Fe Institute, a private research institute in northern New Mexico devoted to the study of complex systems. In 2002 Newman moved to the University of Michigan, where he is currently the Anatol Rapoport Distinguished University Professor of Physics and a professor in the university's Center for the Study of Complex Systems.

Research

Newman is known for his research on complex networks, and in particular for work on collaboration patterns of scientists, random graph theory, assortative mixing, community structure, percolation theory, and network epidemiology.[1] He was also co-inventor, with Michael Gastner, of a method for generating density-equalizing maps or cartograms, which forms the foundation for the Worldmapper web site. Their work gained attention following the 2004 US presidential election when it was used as the basis for a widely circulated map of the election results, which adjusted the size of states based on their population to give a more accurate sense of how many voters voted for each party.[2][3]

Newman's network-based methods have been applied to a variety of fields, including psychology, sociology, economics and biology. The same basic methods have accurately predicted a wide variety of results, from relationships between organisms in an ecosystem to associations between terrorist organizations.[4] Newman has also studied the risk of forest fires[5] and the social behavior of dolphins in New Zealand,[6] as well as the structure of the scientific community itself.[7]

Newman has worked on power-law distributions in complex systems, including in the distribution of wealth, the sizes of cities, and the frequency of words in languages (see Zipf's Law).[8] With collaborators Aaron Clauset and Cosma Shalizi, Newman developed statistical methods for analyzing power-law distributions and applied them to the study of a wide range of systems, in various cases either confirming or denying the existence of previously claimed power-law behaviors.[9]

Newman's paper "The structure and function of complex networks"[10] received the most citations of any paper in mathematics between 2001 and 2011.[11]

Awards and honors

In 2007, Newman was elected as a Fellow of the American Physical Society (APS).[12] In 2011 and 2012, he received a Faculty Recognition Award and an Excellence in Education Award, both from the University of Michigan. In 2014, he was elected as a Fellow of the American Association for the Advancement of Science (AAAS), received the 2014 Lagrange Prize from the ISI Foundation, and was the fifth recipient of the Zachary Karate Club CLUB prize.[13] In 2016, he was elected as a Simons Fellow in Theoretical Physics and received a Guggenheim Fellowship.[14]

See also

Selected publications

Books
  • J. J. Binney; A. J. Fisher; N. J. Dowrick & M. E. J. Newman (1992). The Theory of Critical Phenomena. Oxford: Oxford University Press.
  • M. E. J. Newman & G. T. Barkema (1999). Monte Carlo Methods in Statistical Physics. Oxford: Oxford University Press. ISBN 0-19-851796-3.
  • Mark Newman; Albert-László Barabási & Duncan J. Watts (2006). Structure and Dynamics of Networks. Princeton, NJ: Princeton University Press.
  • Daniel Dorling, Mark Newman & Anna Barford (2008). The Atlas of the Real World. London: Thames & Hudson Ltd. ISBN 978-0-500-51425-2.
  • M. E. J. Newman (2010). Networks: An Introduction. Oxford: Oxford University Press. ISBN 978-0-19-920665-0.. Second edition, September 2018 ISBN 978-0198805090

Articles

References
  1. Mark Newman's home page
  2. Ehrenberg, Rachel (7 November 2012). "Red state, blue state". Science News. The Society for Science and the Public. Retrieved 8 April 2015.
  3. "Fifty shades of purple". Physics World. Institute of Physics. 12 November 2012. Retrieved 8 April 2015.
  4. Rehmeyer, Julie (2 June 2008). "Communities of communities of..." Science News. The Society for Science and the Public. Retrieved 8 April 2015.
  5. Ball, Phillip (27 February 2002). "COLD safer than HOT". Nature News. Nature. Retrieved 8 April 2015.
  6. "Circles of Friends". The Economist. 30 September 2004. Retrieved 8 April 2015.
  7. Ball, Phillip (12 January 2001). "Science is all about networking". Nature News. Nature. Retrieved 8 April 2015.
  8. Newman, M.E.J. (29 May 2006). "Power laws, Pareto distributions and Zipf's law". Contemporary Physics. 46: 323–351. arXiv:cond-mat/0412004. doi:10.1016/j.cities.2012.03.001.
  9. Clauset, Aaron; Shazili, Cosma Rohila; Newman, M. E. J. (2 Feb 2009). "Power-law distributions in empirical data". SIAM Review. 51 (4): 661–703. arXiv:0706.1062. Bibcode:2009SIAMR..51..661C. doi:10.1137/070710111.
  10. Newman, Mark E. J. (June 2003). "The structure and function of complex networks". SIAM Review. 45 (2): 167–256. arXiv:cond-mat/0303516. Bibcode:2003SIAMR..45..167N. doi:10.1137/S003614450342480.
  11. "Top institutions in Mathematics". Times Higher Education. 2 June 2011. Retrieved 8 April 2015.
  12. Curriculum vitae, retrieved 2016-07-01.
  13. Zachary Karate Club CLUB prize, retrieved 2016-07-01.
  14. Guggenhiem Fellowship, retrieved 2016-07-01.
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