Arthur J. Freeman
Affiliations: | 1962-1967 | Massachusetts Institute of Technology, Cambridge, MA, United States | |
| 1967-2014 | Physics & Astronomy | Northwestern University, Evanston, IL |
Area:
First-principles simulations of complex materials, including their structural, electronic, magnetic, optical and mechanical properties.Website:
https://www.mccormick.northwestern.edu/research-faculty/directory/profiles/freeman-arthur.htmlGoogle:
"Arthur J Freeman"Bio:
(1930 - 2016)
https://news.mit.edu/2016/arthur-freeman-first-associate-director-national-magnet-laboratory-dies-0617
DOI: 10.1063/PT.5.6236
https://www.gf.org/fellows/all-fellows/arthur-j-freeman/
https://findingaids.library.northwestern.edu/agents/people/2723
Mean distance: 10.5 | S | N | B | C | P |
Cross-listing: Astronomy Tree
Parents
Sign in to add mentor| John Clarke Slater | grad student | 1956 | MIT | |
| (A theoretical study of the electronic structure of the OH molecule by the method of configuration interaction) | ||||
Children
Sign in to add trainee| Michael Weinert | grad student | Northwestern | |
| Bruce N. Harmon | grad student | 1973 | Northwestern (Astronomy Tree) |
| Jaejun Yu | grad student | 1988 | Northwestern (Astronomy Tree) |
| Xiaoguang Zhang | grad student | 1983-1989 | Northwestern |
| Joo-Hyoung Lee | grad student | 2005 | Northwestern |
| Sung-Hyon Rhim | grad student | 2007 | Northwestern |
| Nicholas B. Hatcher | grad student | 2010 | Northwestern |
| Kanber Lam | grad student | 2014 | Northwestern |
| Alex Zunger | post-doc | Northwestern | |
| Henry Krakauer | post-doc | 1978 | Northwestern |
| Bernard Delley | post-doc | 1979-1982 | Northwestern |
| Michael Ray Norman | post-doc | 1983-1986 | Northwestern |
| Julia E. Medvedeva | post-doc | 2002-2005 | Northwestern (E-Tree) |
| Takao Tsumuraya | post-doc | 2009-2011 | Northwestern |
| Warren E. Pickett | research scientist | 1978-1979 | Northwestern |
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Publications
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| Wu R, Freeman AJ. (2019) Limitation of the magnetic-circular-dichroism spin sum rule for transition metals and importance of the magnetic dipole term. Physical Review Letters. 73: 1994-1997 |
| Wu R, Wang D, Freeman AJ. (2019) First principles investigation of the validity and range of applicability of the x-ray magnetic circular dichroism sum rule. Physical Review Letters. 71: 3581-3584 |
| Wang Ds, Wu R, Freeman AJ. (2019) State-tracking first-principles determination of magnetocrystalline anisotropy. Physical Review Letters. 70: 869-872 |
| Wu R, Freeman AJ. (2019) Spin density at the Fermi level for magnetic surfaces and overlayers. Physical Review Letters. 69: 2867-2870 |
| Weinert M, Freeman AJ, Ohnishi S. (2019) H and W(001) surface reconstructions: Local bonding to surface states. Physical Review Letters. 56: 2295-2298 |
| Wimmer E, Fu CL, Freeman AJ. (2019) Catalytic promotion and poisoning: All-electron local-density-functional theory of CO on Ni(001) surfaces coadsorbed with K or S. Physical Review Letters. 55: 2618-2621 |
| Fu CL, Freeman AJ, Oguchi T. (2019) Prediction of strongly enhanced two-dimensional ferromagnetic moments on metallic overlayers, interfaces, and superlattices. Physical Review Letters. 54: 2700-2703 |
| Fu CL, Freeman AJ, Wimmer E, et al. (2019) Frozen-phonon total-energy determination of structural surface phase transitions: W(001). Physical Review Letters. 54: 2261-2264 |
| Park KT, Novikov DL, Gubanov VA, et al. (2019) Electronic structure of noble-metal monoxides: PdO, PtO, and AgO. Physical Review. B, Condensed Matter. 49: 4425-4431 |
| Vogtenhuber D, Podloucky R, Neckel A, et al. (2019) Electronic structure and relaxed geometry of the TiO2 rutile (110) surface. Physical Review. B, Condensed Matter. 49: 2099-2103 |