Capacitive nature of atomic-sized structures
- 15 October 1995
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 52 (15) , 10737-10739
- https://doi.org/10.1103/physrevb.52.10737
Abstract
The capacitance of an N-electron system is established by deriving the atomistic connection between the capacitive energy, the ionization potential, and the electron affinity of the charged system; it is shown further that this connection leads to the linkage of the capacitive energy to the difference between the lowest unoccupied and the highest occupied Kohn-Sham orbital energies of the system. An illustrative example is used to show explicitly the microscopic behavior of the derived capacitance for a finite electron system, and to discuss the tendency of the derived capacitance to limit toward the classical electrostatic capacitance as the system becomes macroscopically large. Discussions relevant to atomic and molecular systems are included.Keywords
This publication has 7 references indexed in Scilit:
- Simulation of electronic properties and capacitance of quantum dotsJournal of Applied Physics, 1995
- Size-dependent ionization energy of a metallic cluster: Resolution of the classical image-potential paradoxPhysical Review B, 1994
- Electronic energy spectrum and the concept of capacitance in quantum dotsPhysical Review B, 1993
- Coulomb-blockade spectroscopy of gold particles imaged with scanning tunneling microscopyPhysical Review B, 1993
- N-electron ground state energies of a quantum dot in magnetic fieldPhysical Review Letters, 1993
- Artificial AtomsPhysics Today, 1993
- A New Electroaffinity Scale; Together with Data on Valence States and on Valence Ionization Potentials and Electron AffinitiesThe Journal of Chemical Physics, 1934