David Pines

David Pines
Born (1924-06-08) June 8, 1924
Kansas City, Missouri
Alma mater Princeton University
Doctoral advisor David Bohm

David Pines (born June 8, 1924) is the founding director of the Institute for Complex Adaptive Matter (ICAM) and the International Institute for Complex Adaptive Matter (I2CAM) (respectively, US wide and international institutions dedicated to research in and the understanding of emergent phenomena), distinguished professor of physics, UC Davis, research professor of physics and professor emeritus of physics and electrical and computer engineering in the Center for Advanced Study, University of Illinois at Urbana-Champaign, and a staff member in the office of the Materials, Physics, and Applications Division at Los Alamos.

His seminal contributions to the theory of many-body systems and to theoretical astrophysics have been recognized by two Guggenheim Fellowships, the Feenberg Medal, Friemann, Dirac, and Drucker Prizes, and by his election to the National Academy of Sciences, American Philosophical Society, American Academy of Arts and Sciences, Russian Academy of Sciences, and Hungarian Academy of Sciences and visiting professorships at Caltech, College de France, Trinity College, University of Cambridge, University of Leiden, and Universite de Paris.

He is the founding director of the Center for Advanced Study, UIUC (1968–70), was vice-president of the Aspen Center for Physics from 1968 to 1972, founder and co-chair of the US-USSR Cooperative Program in Physics, 1968–89; and a co-founder, vice-president, chair of the board of trustees, and co-chair of the science board of the Santa Fe Institute, from 1982 to 1996.

He has been the organizer or co-organizer of fifteen workshops and two summer schools of theoretical physics, is currently an honorary trustee and honorary member of the Aspen Center for Physics, and a member of the board of overseers, Sabanci University, Istanbul.

Research interests

His current research concerns the search for the organizing principles responsible for emergent behavior in materials where unexpectedly new classes of behavior emerge in response to the strong and competing interactions among their elementary constituents. Some recent research results on correlated electron materials are the development of a consistent phenomenological description of protected magnetic behavior in the pseudogap state of underdoped cuprate superconductors and the discovery of the protected emergence of itinerancy in the Kondo lattice in heavy electron materials and its description using a two-fluid model. He continues his interest in the superfluidity of neutron stars revealed by pulsar glitches and in elementary excitations in the helium liquids.

Recent scientific articles

Career history

Honors

Awards

Significant publications on quantum liquids

Books

Editorial contributions

Educational and public service

External links

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