Geoffrey B. West, PhD

Affiliations:

1966-

Nuclear Physics

Stanford University, Palo Alto, CA

Area:

High energy Physics, Complexity, Biology, Scaling

Website:

https://en.wikipedia.org/wiki/Geoffrey_West

Google:

"Geoffrey West"

Bio:

Geoffrey Brian West (born December 15, 1940)[1] is a British theoretical physicist, former president and distinguished professor of the Santa Fe Institute. He is one of the leading scientists working on a scientific model of cities. Among other things his work states that with the doubling of a city's size, services per capita will generally increase by 15%.[2]

Born in Taunton, Somerset, a rural town in western England, West moved to London when he was 13.[3] He received a Bachelor of Arts degree in physics from the University of Cambridge and pursued graduate studies on the Pion at Stanford University.[4]

West became a Stanford faculty member before he joined the particle theory group at New Mexico's Los Alamos National Laboratory. After Los Alamos, he became president of the Santa Fe Institute, where he worked and works on biological issues such as the allometric law[5] and other power laws in biology.[6][7]

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Parents

Leonard I. Schiff	grad student	1966	Stanford
(I. FORM FACTORS OF THE THREE-BODY NUCLEI. II. COULOMB SCATTERING AND THE FORM FACTOR OF THE PION.)

Children

Brian J. Enquist

post-doc

1999-2000

The Santa Fe Institute (Terrestrial Ecology Tree)

Collaborators

BETA: Related publications

Publications

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Enquist BJ, Kempes CP, West GB. (2024) Developing a predictive science of the biosphere requires the integration of scientific cultures. Proceedings of the National Academy of Sciences of the United States of America. 121: e2209196121
Youn H, Bettencourt LM, Lobo J, et al. (2016) Scaling and universality in urban economic diversification. Journal of the Royal Society, Interface / the Royal Society. 13
West GB. (2014) A theoretical physicist's journey into biology: from quarks and strings to cells and whales. Physical Biology. 11: 053013
Schläpfer M, Bettencourt LM, Grauwin S, et al. (2014) The scaling of human interactions with city size. Journal of the Royal Society, Interface. 11: 20130789
Marquet PA, Allen AP, Brown JH, et al. (2014) On theory in ecology Bioscience. 64: 701-710
Savage VM, Herman AB, West GB, et al. (2013) Using Fractal Geometry and Universal Growth Curves as Diagnostics for Comparing Tumor Vasculature and Metabolic Rate With Healthy Tissue and for Predicting Responses to Drug Therapies. Discrete and Continuous Dynamical Systems. Series B. 18
West GB. (2012) The importance of quantitative systemic thinking in medicine. Lancet (London, England). 379: 1551-9
Zuo W, Moses ME, West GB, et al. (2012) A general model for effects of temperature on ectotherm ontogenetic growth and development. Proceedings. Biological Sciences / the Royal Society. 279: 1840-6
Herman AB, Savage VM, West GB. (2011) A quantitative theory of solid tumor growth, metabolic rate and vascularization. Plos One. 6: e22973
Kempes CP, West GB, Crowell K, et al. (2011) Predicting maximum tree heights and other traits from allometric scaling and resource limitations. Plos One. 6: e20551