John Werner Cahn (January 9, 1928 – March 14, 2016) was an American scientist and recipient of the 1998
National Medal of Science. Born in
Cologne,
Weimar Germany, he was a professor in the department of
metallurgy
Metallurgy is a domain of materials science and engineering that studies the physical and chemical behavior of metallic elements, their inter-metallic compounds, and their mixtures, which are known as alloys.
Metallurgy encompasses both the sc ...
at the
Massachusetts Institute of Technology (MIT) from 1964 to 1978. From 1977, he held a position at the
National Institute of Standards and Technology (formerly the National Bureau of Standards). Cahn had a profound influence on the course of materials research during his career. One of the foremost authorities on
thermodynamics, Cahn applied the basic laws of thermodynamics to describe and predict a wide range of physical phenomena.
Biography
Hans Werner Cahn was born in Cologne, Germany, to a Jewish family.
[ His father was an anti-Nazi lawyer and his mother an X-ray technician.][
After the '']Machtergreifung
Adolf Hitler's rise to power began in the newly established Weimar Republic in September 1919 when Hitler joined the '' Deutsche Arbeiterpartei'' (DAP; German Workers' Party). He rose to a place of prominence in the early years of the party. Be ...
'' in 1933, the elder Cahn escaped arrest only because he had been forewarned by a fellow lawyer. The family fled Germany and eventually ended up in Amsterdam. They emigrated to America in 1939, where Hans became John. Most of his family back in Europe was murdered in the Holocaust.[
The Cahns settled in New York City. John Cahn became an American citizen in 1945. Serving in the United States Army, he was stationed in Japan during its occupation by the Allies.][
Cahn received a bachelor's degree in chemistry in 1949 from the University of Michigan. He later earned a Ph.D in physical chemistry in 1953 from the University of California at Berkeley. His doctoral thesis was titled "The Oxidation of Isotopically Labelled Hydrazine" and his thesis advisor was R. E. Powell.
In 1954, Cahn joined the chemical metallurgy research effort at the General Electric laboratory in Schenectady, New York, led by David Turnbull. Turnbull had done pioneering work on the ]kinetics
Kinetics ( grc, κίνησις, , kinesis, ''movement'' or ''to move'') may refer to:
Science and medicine
* Kinetics (physics), the study of motion and its causes
** Rigid body kinetics, the study of the motion of rigid bodies
* Chemical ki ...
of nucleation
In thermodynamics, nucleation is the first step in the formation of either a new thermodynamic phase or structure via self-assembly or self-organization within a substance or mixture. Nucleation is typically defined to be the process that deter ...
, and there was a focus in the group on understanding the thermodynamics and kinetics of phase transformations in solids.
In 1964, Cahn became a professor in the Department of Metallurgy (now Materials Science) at the Massachusetts Institute of Technology. He left MIT in 1978. In 1969, Cahn began a long professional relationship with his graduate student, Francis Larché, whose work focussed on the effect of mechanical stress on the thermodynamics of solids. The Larche–Cahn approach is the cornerstone of the treatment of the thermodynamics of stressed materials. Good examples of this phenomenon are the regions near a coherent precipitate or the stress field around a dislocation.
In 1972, Cahn worked with David W. Hoffman to formulate vector-based thermodynamics to describe the thermodynamics of interfaces, a formulation which is necessary to account for anisotropic materials. This is also known as the capillary vector formulation of interface energies. The mathematics of this treatment involves the concept of norms, although Cahn and Hoffman were unaware of it at the time.
In 1975, Cahn worked with his graduate student Sam Allen on phase transitions in iron alloys, including order-disorder transitions. This work led to the Allen–Cahn equation
The Allen–Cahn equation (after John W. Cahn and Sam Allen) is a reaction–diffusion equation of mathematical physics which describes the process of phase separation in multi-component alloy systems, including order-disorder transitions.
The eq ...
.
From 1984, he was an affiliate professor at the University of Washington.
Work
The spinodal
In 1957, Cahn worked with John E. Hilliard to develop the Cahn–Hilliard equation which describes the thermodynamic forces driving phase separation in many systems, and developed the joint theory of spinodal decomposition.
Solidification
In the theory of crystal growth, Cahn concluded that the distinguishing feature is the ability of the surface to reach an equilibrium state in the presence of a thermodynamic driving force (typically in the form of the degree of undercooling). He also concluded that for every surface or interface in a crystalline medium, there exists a critical driving force, which, if exceeded, will enable the surface or interface to advance normal to itself, and, if not exceeded, will require the lateral growth mechanism.
Thus, for sufficiently large driving forces, the interface can move uniformly without the benefit of either a heterogeneous nucleation or screw dislocation mechanism. What constitutes a sufficiently large driving force depends upon the diffuseness of the interface, so that for extremely diffuse interfaces, this critical driving force will be so small that any measurable driving force will exceed it. Alternatively, for sharp interfaces, the critical driving force will be very large, and most growth will occur by the lateral step mechanism.
Droplets and surfaces
In 1977, Cahn published a simple mathematical treatment of the thermodynamics of wetting: the interaction between a liquid in contact with a solid surface. This paper laid out a simple formulation for describing the wetting transition A wetting transition (Cassie–Wenzel transition) may occur during the process of wetting of a solid (or liquid) surface with a liquid. The transition corresponds to a certain change in contact angle, the macroscopic parameter characterizing wetting ...
—the point at which a liquid changes from forming a droplet on a surface to spreading out evenly as a liquid film over the surface. This theory had wide-ranging implications for many materials processing techniques.
Quasicrystals
In 1982, Dan Shechtman observed a new crystalline structure with puzzling features. Cahn contributed to the theory of how such a structure could be thermodynamically stable and became co-author of the seminal paper which introduced quasicrystals.
Glass transition
In 2004, Cahn and Bendersky presented evidence that an "isotropic non-crystalline metallic phase" (dubbed "q-glass") can be grown from the melt. This is the "primary phase," to form in the Al-Fe-Si system during rapid cooling. Experimental evidence indicates that this phase forms by a first-order transition. TEM images show that the q-glass nucleates from the melt as discrete particles, which grow spherically with a uniform growth rate in all directions. The diffraction pattern shows it to be an isotropic glassy phase. Yet there is a nucleation barrier, which implies an interfacial discontinuity (or internal surface) between the glass and the melt.
Research in retirement
In his retirement, Cahn accepted a position at the University of Washington as an affiliate professor in the Departments of Materials Science and Engineering and Physics.
Personal life
He had three children and six grandsons. In retirement, he lived in Seattle, Washington, with his wife, Anne Hessing Cahn
Anne Hessing Cahn is a political author who holds a doctorate in political science from MIT. She was notable for her criticism of the CIA among other US agencies and leaders, particularly Team B and other aspects of the last days of the Cold Wa ...
. He died from leukemia in Seattle on March 14, 2016.
Honors and awards
2011
The Kyoto Prize, Inamori Foundation
2002
Bower Prize, Franklin Institute
2001
Emil Heyn Medal, German Metallurgical Society
2001
Honorary Life Member, American Ceramic Society
1999
Bakhuys Roozeboon Lecturer and Gold medal, Netherlands Academy of Sciences
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1998
National Medal of Science
1998
Member, National Academy of Engineering
1998
Distinguished GE Lecturer in Materials Science at RPI
'69 & `98
MacDonald Lecturer, Canadian Metallurgical Society
1996
Doctor Honoris Causis, Universite d'Évry, France
1995
Harvey Prize, Technion.
1994
Rockwell Medal; Hall of Fame for Engineering, Science and Technology, and Medal, International Technology Institute.
1994
Gold Medal, Honorary Member, Japan Institute of Metals.
1993
Inland Steel Lecture, Northwestern University.
1993
Hume–Rothery Award, TMS.
1993
Cyril Stanley Smith Lecturer, University of Chicago.
1992
Honorary member, MRS-India.
1991
Michelson–Morley Award, Case Western University.
1990
Honorary Sc. D., Northwestern University; Hilliard Lecturer.
1989
Sauveur Award, ASM International.
1987
Distinguished Physics Lecturer, Boston University.
1986
Stratton Award, National Bureau of Standards.
1985
Von Hippel Award, Materials Research Society.
1984
Gold Medal, US Department of Commerce.
1983
Distinguished Lecturer, University of Connecticut.
1982
Golick Lecturer, University of Missouri, Rolla, MO.
1981
Fellow, Japan Society for the Promotion of Science.
1981
Dickson Prize, Carnegie–Mellon University.
1980
Honorary Professor, Jiao Tong University, Shanghai, China.
1979
Van Horn Lecturer, Case-Western University.
1978
Dorn Lecturer, Northwestern University.
1977
Acta Metallurgica Gold Medal.
1974
Fellow, American Academy of Arts and Sciences.
1973
Member, National Academy of Sciences
The National Academy of Sciences (NAS) is a United States nonprofit, non-governmental organization. NAS is part of the National Academies of Sciences, Engineering, and Medicine, along with the National Academy of Engineering (NAE) and the Nati ...
.
1968
Institute of Metals Lecturer, AIME.
1966
S. B. Meyer Award, American Ceramic Society.
1960–61
Guggenheim Fellowship spent at the University of Cambridge, Goldsmith Laboratory.
1951
Allied Chemical and Dye Fellowship at University of California, Berkeley.
References
External links
Biography and Publications
Quasicrystals
{{DEFAULTSORT:Cahn, John W.
1928 births
2016 deaths
American people of German-Jewish descent
Jewish American scientists
National Medal of Science laureates
University of Michigan College of Literature, Science, and the Arts alumni
Department of Commerce Gold Medal
Members of the United States National Academy of Sciences
Members of the United States National Academy of Engineering
Prussian emigrants to the United States
UC Berkeley College of Chemistry alumni
Fellows of the Minerals, Metals & Materials Society
21st-century American Jews
Kyoto laureates in Advanced Technology