Researcher Portfolio
Gaston, Nicola
Max Planck Institute for the Physics of Complex Systems, Max Planck Society
Researcher Profile
Position: Max Planck Institute for the Physics of Complex Systems, Max Planck Society
Researcher ID: https://pure.mpg.de/cone/persons/resource/persons184517
Publications
: Gaston, N., Paulus, B., Wedig, U., & Jansen, M. (2008). Multiple minima on the energy landscape of elemental zinc-a wavefunction based ab-initio study. Physical Review Letters, 100(22): 226404. [PubMan] : Voloshina, E., Gaston, N., & Paulus, B. (2007). Embedding procedure for ab-initio correlation calculations in group II metals. Journal of Chemical Physics, 126: 134115. [PubMan] : Gaston, N., & Paulus, B. (2007). Ab initio correlation calculations for the ground state properties of the group 12 metals Zn and Cd. Physical Review B, 76(21): 214116. [PubMan] : Gaston, N., Opahle, I., Gäggeler, H., & Schwerdtfeger, P. (2007). Is Eka-Mercury (Element 112) a Group 12 metal? Angewandte Chemie (Internationale Edition), 46(10), 1663-1666. doi:10.1002/anie.200604262. [PubMan] : Gaston, N., & Paulus, B. (2006). Ab initio correlation calculations for the lattice structures of Zn, Cd, and Hg. Lecture Series on Computer and Computational Science, 7B, 891-896. [PubMan] : Gaston, N., Paulus, B., Rosciszewski, K., Schwerdtfeger, P., & Stoll, H. (2006). The lattice structure of mercury: Influence of electronic correlation. Physical Review B, 74(1): 094102. [PubMan] : Paulus, B., Rosciszewski, K., Gaston, N., Schwerdtfeger, P., & Stoll, H. (2004). Convergence of the ab initio many-body expansion for the cohesive energy of solid mercury. Physical Review B, 70(16): 165106. [PubMan]