1. Time-resolved energy transduction in a quantum capacitor.
- Author
-
Woojin Jung, Doohee Cho, Min-Kook Kim, Hyoung Joon Choi, and In-Whan Lyo
- Subjects
SCANNING tunneling microscopy ,CAPACITORS ,SILICON ,QUANTUM dots ,NANOTECHNOLOGY ,SOLITONS - Abstract
The capability to deposit charge and energy quantum-by-quantum into a specific atomic site could lead to many previously unidentified applications. Here we report on the quantum capacitor formed by a strongly localized field possessing such capability. We investigated the charging dynamics of such a capacitor by using the unique scanning tunneling microscopy that combines nanosecond temporal and subangstrom spatial resolutions, and by using Si(001) as the electrode as well as the detector for excitations produced by the charging transitions. We show that sudden switching of a localized field induces a transiently empty quantum dot at the surface and that the dot acts as a tunable excitation source with subangstrom site selectivity. The timescale in the deexcitation of the dot suggests the formation of long-lived, excited states. Our study illustrates that a quantum capacitor has serious implications not only for the bottom-up nanotechnology but also for future switching devices. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF