David Joseph Singh
David Joseph Singh is a theoretical physicist who is a professor in the Department of Physics and Astronomy at the University of Missouri, Columbia. He was previously a Corporate Fellow at the Oak Ridge National Laboratory ORNL.
Life, education and career
David Singh was born in Cedar Rapids, Iowa, USA on June 23, 1958. He has a Summa cum Laude B.Sc. (1980) and a Ph.D. (1985) in Physics from the University of Ottawa in Canada. His doctoral research at Ottawa was under the supervision of Professor Yatendra Varshi. From 1985 -1988 he had a postdoctoral appointment at the College of William and Mary where he was supervised by Professor Henry Krakauer. In 1988, he moved to join the theory group supervised by Warren E. Pickett at the Naval Research Laboratory Washington, DC. He continued to work on a range of materials problems at the Naval Research Laboratory form 1988 to 2004; one of the publications [1] discussed an interesting explanation of Colossal magnetoresistance. In 2004 Singh left Washington to join the Oak Ridge National Laboratory, a US department of Energy facility, in Oak Ridge, TN. In 2015 he moved to the University of Missouri. David Singh is a co-author of the book, “Planewaves, Pseudopotentials and the LAPW Method” as well as more than 480 publications in scientific journals, 30,000+ Citations, ISI h-index of 65. His general area of research is in condensed matter physics, particularly on electronic structure methods, Ferroelectrics, Thermoelectrics [2] and iron-based superconductor.[3] He has made significant contributions in the application of Density functional theory especially to these new superconductors. Singh became a fellow of the American Physical Society in 1997.[4]
Major professional contributions and recognitions
Along with his former colleague and a frequent collaborator Igor I. Mazin, David Singh has developed the sign-changing s-wave model for iron-based superconductors.[5]
Thomson Reuters, has named David Singh a Highly Cited Researcher, one who is ranked in the top 1% of scientists in his/her field based on citations in Web of Science. According to Google Scholar, his most cited article [6] has 14,041 citations as April 2014.[7] His next most cited papers have 2006, 1597, 1411, 1057, 957 citations; in all, 59 papers with over 100 citations.[7]
References
- ↑ Warren E. Pickett et al, Phys. Rev. B.53,1146 (1996).
- ↑ O. Delaire et al, Nature Materials, 10,614 (2011).
- ↑ M.M. Quazilbash et al, Nature Physics.5,647 (2009).
- ↑ http://www.aps.org/programs/honors/fellowships/archive-all.cfm?initial=S&
- ↑ I.I. Mazin et al, Phys. Rev. Lett.101,057003 (2008).
- ↑ John P Perdew, JA Chevary, SH Vosko, Koblar A Jackson, Mark R Pederson, DJ Singh, Carlos Fiolhais "Atoms, molecules, solids, and surfaces: Applications of the generalized gradient approximation for exchange and correlation" Physical Review B, 1992 v. 46, Issue 11 Pages 6671–
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