Comparative study of metal clusters by Quantum Monte Carlo method

Yuning Wu; Hai-Ping Cheng; Paul Kent

Comparative study of metal clusters by Quantum Monte Carlo method

ORAL

Abstract

Lithium and sodium clusters have been studied by fixed-node diffusion quantum Monte Carlo method. This stochastic wave-function-based approach can provide more accurate results and serve as benchmarks against which other techniques may be compared. We studied the binding energies and investigate different geometries to decide the ground state. Our results are compared with those derived from other method such as DFT and CI methods. Our objective is to validate current quantum Monte Carlo methods for small metal clusters that undergo size dependent geometrical transitions.

^*Acknowledgment: DOE/BES DE-FG02-02ER45995; portion of this work at CNMS at ORNL sponsored by Division of User Facilities, Office of Basic Energy Sciences, US Department of Energy.

March 20, 2009, 12:51 PM – March 20, 2009, 1:03 PM

Authors

Yuning Wu
- Quantum Theory Project, Department of Physics, University of Florda
Hai-Ping Cheng
- Quantum Theory Project, Department of Physics, University of Florda
- Department of Physics and Quantum Theory Project, University of Florida
- Department of Physics, University of Florida
- Quantum Theory Project and Department of Physics, University of Florida
- Physics Dept.
Paul Kent
- CNMS, Oak Ridge National Lab
- ORNL
- Oak Ridge National Laboratory