Kieron Burke is a professor known for his work in the field of quantum mechanics, particularly in developing and advancing density functional theory (DFT). He holds joint appointments as a distinguished professor in the Departments of Chemistry and Physics at the University of California, Irvine (UCI).[1]
Career and research
Density functional theory
Burke's primary research focus is on density functional theory (DFT), a computational quantum mechanical modeling method used to investigate the electronic structure of many-body systems, particularly atoms, molecules, and condensed phases. DFT has become an essential tool in chemistry and materials science due to its balance of accuracy and computational efficiency. Burke has been instrumental in developing formalism, new approximations, and extensions of DFT to various scientific applications (UCI Chemistry) (Eddleman Quantum Institute) (UCI DFT).[2]
Key contributions
Kieron Burke has contributed significantly to several areas within DFT, including:
PBE Functional Development: Contributed to the development of the Perdew-Burke-Ernzerhof (PBE) functional, which is widely used in computational chemistry and materials science.[3]
Adiabatic Connection Arguments: Played a role in developing the PBE0 hybrid functional, which combines DFT with Hartree-Fock theory.[4]
Thermal DFT: Advanced the understanding of DFT under thermal conditions, which is crucial for studying matter under extreme environments such as planetary interiors and fusion reactors.[5]
Machine Learning: Integrated machine learning techniques to improve the accuracy and efficiency of DFT calculations (UCI Chemistry) (IAQMS) (APS Physics).[6]
Kieron Burke is also known for his educational efforts and outreach activities. He has delivered lectures and tutorials on DFT around the world and is actively involved in mentoring students and postdoctoral researchers from various scientific disciplines, including chemistry, physics, mathematics, and computer science (UCI Chemistry) (Eddleman Quantum Institute).[8]
Selected publications
Burke has authored over 180 research papers in theoretical chemistry, physical chemistry, condensed matter physics, and surface and interface science. His work is highly cited, reflecting its impact on the scientific community. Some notable publications include:
"Thermal Density Functional Theory in Context" - A comprehensive overview of thermal DFT and its applications.[9]
"Exact Conditions and Approximations in Density Functional Theory" - Discusses the theoretical foundations and practical approximations in DFT.[10]
^Pribram-Jones, Aurora; Pittalis, Stefano; Gross, E. K. U.; Burke, Kieron (2014), "Thermal Density Functional Theory in Context", Frontiers and Challenges in Warm Dense Matter, Lecture Notes in Computational Science and Engineering, vol. 96, pp. 25–60, arXiv:1309.3043, doi:10.1007/978-3-319-04912-0_2, ISBN978-3-319-04911-3