Demonstration of a nanophotonic switching operation by optical near-field energy transfer
- 5 May 2003
- journal article
- research article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 82 (18) , 2957-2959
- https://doi.org/10.1063/1.1571977
Abstract
We have demonstrated the operation of a nanophotonic switch that uses three CuCl quantum cubes with a size ratio of 1:√:2. The switching mechanism is based on resonant optical near-field energy transfer between the resonant quantized excitonic energy levels of the quantum cubes. Using near-field optical spectroscopy, we observed a switching rise time of less than 100 ps and a repetition rate of 80 MHz. These results suggest the possibility of making a nanophotonic switching device smaller than 20 nm with a figure of merit 10–100 times higher than that of a conventional photonic switch.Keywords
This publication has 11 references indexed in Scilit:
- Excitation energy transfer and population dynamics in a quantum dot system induced by optical near-field interactionJournal of Applied Physics, 2003
- Nanophotonics: design, fabrication, and operation of nanometric devices using optical near fieldsIEEE Journal of Selected Topics in Quantum Electronics, 2002
- Enhancement of spontaneous recombination rate in a quantum well by resonant surface plasmon couplingPhysical Review B, 2002
- Observation of size-dependent features in the photoluminescence of zinc oxide nanocrystallites by near-field ultraviolet spectroscopyApplied Physics Letters, 2002
- Direct Observation of Optically Forbidden Energy Transfer between CuCl Quantum Cubes via Near-Field Optical SpectroscopyPhysical Review Letters, 2002
- Fabrication of a nanometric Zn dot by nonresonant near-field optical chemical-vapor depositionApplied Physics Letters, 2001
- Near-field optical potential for a neutral atomPhysical Review A, 2000
- Near-field optical fiber probe optimized for illumination–collection hybrid mode operationApplied Physics Letters, 1999
- Persistent spectral-hole-burning spectroscopy of CuCl quantum cubesPhysical Review B, 1997
- Study on the Size and Shape of CuCl Microcrystals Embedded in Alkali‐Chloride Matrices and Their Correlation with Exciton ConfinementPhysica Status Solidi (b), 1988