George Sawatzky

George Sawatzky
George Sawatzky
Alma mater	University of Manitoba ;
Occupation	University teacher
Awards	Henry Marshall Tory Medal (2007); Fellow of the Royal Society (2008, 2008) ;
	Scientific career
Thesis	Some properties of ferrimagnetic spinels and their determination with the Mössbauer effect (1969)
Website	phas.ubc.ca/users/george-sawatzky

George Albert Sawatzky FRSC FRS (born 16 May 1942, Winkler, Manitoba, Canada) is a Canadian physicist, known for his research in solid state physics and strongly correlated electron systems.^[1] He has co-developed the Cini-Sawatzky theory of the Auger effect^[2]^[3] and the ZSA (Zaanen-Sawatzky-Allen) classification of bandgaps in solids.^[4]

Education and career[edit]

George A. Sawatzky earned in 1965 his B.S. in physics with Honours from the University of Manitoba and there in 1969 his PhD with thesis Some properties of Ferrimagnetic Spinels and their determination with the Mössbauer effect under the supervision of Allan H. Morrish. From 1969 to 1971 Sawatzky was a post-doc and member of the group led by Adrianus "Ad" J. Dekker and L. H. V. (Lucas) van der Woude at the University of Groningen and there from 1971 to 1979 was an associate professor and from 1979 to 1985 a professor in the Physical Chemistry Department. From 1985 to 2001 he was Professor of Applied and Solid State Physics at the University of Groningen. From 1986 to 1997 he was also director of the Materials Science Centre at the University of Groningen. In 2001 he was appointed a professor at the University of British Columbia.^[5]^[6] From 2002 to 2007, Sawatzky was Director of the Advanced materials and process engineering Laboratory at UBC and from 2010 to the present, he is Director of the Quantum Matter Institute and the MP/UBC Quantum Materials centre at UBC. He is one of the directors of the Max Planck Institute.^[7] He has been a visiting professor at the University of Osaka and the University of Paris.^[1] He has been the thesis advisor of over 40 doctoral students, at least 14 of whom have found employment as university professors.

Research[edit]

Since 1966 Sawatzky has published in scientific journals more than 380 articles. His papers have been cited more than 28,000 times according to ISI Thomson. He has published 77 papers with more than 100 citations and his so-called H index (Hirsch index is 87). According to CIFAR, his research "focuses on: electronic structure of nanostructured strongly correlated materials, such as magnetic materials, high temperature superconductors, and materials for electronics applications; the development and use of various synchrotron-based spectroscopic methods to study such systems; as well as theoretical methods to describe the relationship between the physical properties and the chemical composition, structure and morphology."^[6]

Sawatzky has made major contribution to the understanding of transition metal oxides (such as gamma and alpha Fe₂O₃ and Fe₃O₄) and more generally correlated electron systems and also to the development of spectroscopic techniques suited to study the electronic structure of these systems. He generated some of the earliest ideas about effects such as transferred and, especially, supertransfered hyperfine fields and developed the theory to describe these in terms of the covalency of the Fe–O bonds. He pioneered the cluster approach now used in understanding the Fe-O-Fe bond angle, the superexchange interaction, and the supertransferred hyperfine fields, as well as the electronic structure of strongly correlated systems like the high temperature superconductors and colossal magneto resistance materials.

In the early 1970s Sawatzky and his co-workers used transport measurements and various resonant techniques like ESR and NMR to study spin echo NMR. The knowledge obtained concerning spin echo NMR led to the discovery of the so-called sand memory, which is a memory based on a powder of crystalline SiO₂ in which the address of information is the frequency of an electromagnetic pulse and the content of such an address is observable in an echo at a time separation equal to that written perhaps a long time ago at the same frequency. The theory describing this effect was also developed by Sawatzky in collaboration with the solid state theorist Gerrit Vertogen.

In the 1980s Sawatzky showed how photoelectron and Bremsstrahlung isochromat spectroscopy could be used to determine the Hubbard U in magnetic impurity systems and rare earths. His group was the first to directly observe the exchange splitting of the Mn3d impurity states in the Kondo-like systems containing Mn impurities. His group also showed that the band gap in NiO was of a charge transfer type and not a Mott Hubbard type. Together with Jan Zaanen and James W. Allen, Sawatzky developed the ZSA model (which became widely used) for describing the basics of the electronic structure of 3d transition metal oxides.

In the mid 1980s Sawatzky was introduced to X-ray absorption spectroscopy and the use of synchrotron radiation by John Fuggle. Sawatzky and his group started a long and very productive study of X-ray spectroscopies which form the basis for widely used spectroscopies at present. Over the past 3 decades he has led important research in theories and experiments related to strongly correlated materials.

Honours and awards[edit]

1990 Elected Member of the Royal Netherlands Academy of Arts and Sciences (KNAW)^[8]
1996 NWO-Spinoza award (Netherlands Organization for Scientific Research)^[9]^[10]
1996 (and subsequent years) ISI list of highly cited
1997 Nieuwsblad van het Noorden prize
2002 Knight in the order of the Dutch Lion
2002 Elected Fellow of the Royal Society of Canada
2003 Elected Fellow of the American Physical Society
2007 RSC Henry Marshall Tory Medal
2008 Elected Fellow of the Royal Society of London
2011 IFW Dresden Leibnitz medal

Editorial Boards[edit]

1992–1997 Editor of Journal of Physics and Chemistry of Solids
1994–2001 Journal of Electron Spectroscopy and Related Phenomena (Advisory Editorial Board)
2006–2010 Associate editor Europhysics Letters

References[edit]

^ ^a ^b NWO. "Prof. dr. G.A. (George) Sawatzky" (in Dutch).
^ Verdozzi, Claudio; Cini, Michele; Marini, Andrea (2000). "Auger spectroscopy of strongly correlated systems: present status and future trends". arXiv:cond-mat/0011300.
^ Fitzgerald, A. G.; Storey, B. E.; Fabian, D. J., eds. (1993). "5.1 Cini-Sawatzky model". Quantitative Microbeam Analysis. CRC Press. pp. 105–107. ISBN 0750302569.
^ de Groot, Frank; Kotani, Akio (2008). "5.3.2 Zaanen-Sawatzy-Allen Diagram". Core Level Spectroscopy of Solids. CRC Press. pp. 152–154. ISBN 9781420008425.
^ "George Sawatzky". University of British Columbia.
^ ^a ^b CIFAR. "George A. Sawatzky".
^ "Max Planck Institute". Max Planck Institute.
^ "George Sawatzky". Royal Netherlands Academy of Arts and Sciences. Archived from the original on 8 August 2020.
^ Rijksuniversiteit Groningen. "Spinoza Prizes".
^ "NWO Spinoza Prize 1996". Netherlands Organisation for Scientific Research. 11 September 2014. Archived from the original on 2 November 2020. Retrieved 30 January 2016.

External links[edit]

[nwo-1] NWO. "Prof. dr. G.A. (George) Sawatzky" (in Dutch).

[2] Verdozzi, Claudio; Cini, Michele; Marini, Andrea (2000). "Auger spectroscopy of strongly correlated systems: present status and future trends". arXiv:cond-mat/0011300.

[3] Fitzgerald, A. G.; Storey, B. E.; Fabian, D. J., eds. (1993). "5.1 Cini-Sawatzky model". Quantitative Microbeam Analysis. CRC Press. pp. 105–107. ISBN 0750302569.

[4] Groot, Frank; Kotani, Akio (2008). "5.3.2 Zaanen-Sawatzy-Allen Diagram". Core Level Spectroscopy of Solids. CRC Press. pp. 152–154. ISBN 9781420008425.

[phas-5] "George Sawatzky". University of British Columbia.

[cifar-6] CIFAR. "George A. Sawatzky".

[7] "Max Planck Institute". Max Planck Institute.

[8] "George Sawatzky". Royal Netherlands Academy of Arts and Sciences. Archived from the original on 8 August 2020.

[rug.nl-9] Rijksuniversiteit Groningen. "Spinoza Prizes".

[10] "NWO Spinoza Prize 1996". Netherlands Organisation for Scientific Research. 11 September 2014. Archived from the original on 2 November 2020. Retrieved 30 January 2016.

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v t e Fellows of the Royal Society elected in 2008
Fellows	Girish Saran Agarwal Dario Alessi Michael Alpers Fraser Armstrong Alan Ashworth John Bell Jon Blundy Leszek Borysiewicz Alexander Bradshaw Stephen Cohen Fergus Craik David Deutsch John Duncan Russell G. Foster Brian Foster Derek Fray Peter Hudson Christopher Hunter Stephen Jackson Nicholas Kaiser Mark Kisin Christopher John Lamb Peter Simon Liss Jan Löwe Yiu-Wing Mai John C. Marshall Harvey McMahon Anne O'Garra Peter Parham Ian Parker Michael Payne Laurence Pearl Matthew Rosseinsky Robert Russell George Sawatzky James F. Scott Evgeny Sklyanin Philip J. Stephens Claudio Daniel Stern Michael Stratton Roger Summons Ulrike Tillmann Kenneth Timmis Chris Toumazou
Foreign	J. Michael Bishop William A. Catterall Barbara Hohn Ho-Kwang Mao Peter Marler David Mumford Richard Schrock Susan Solomon
Honorary	David Sainsbury, Baron Sainsbury of Turville

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Academics	Mathematics Genealogy Project Scopus
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