Title :
Towards femtojoule-per-bit optical communication in a chip
Author_Institution :
NTT Nanophotonics Center, Atsugi, Japan
Abstract :
This paper reviews our recent studies of ultralow-power nanophotonics devices towards implementing a dense optical communication network into a processor chip. A photonic crystal nanocavity that has a very large Q/V ratio is a very promising tool for reducing the consumption energy and footprint for this goal. We show several examples of photonic-crystal nanocavity devices that exhibit record-low consumption energy/power and describe how we have achieved the performance. These results indicate that the present technology is now enabling us to integrate a large number of various wavelength-sized photonic devices with extremely-small energy consumption, which will lead to fJ/bit-level optical communication in a chip.
Keywords :
low-power electronics; microprocessor chips; nanophotonics; optical communication; photonic crystals; extremely-small energy consumption; femtojoule-per-bit optical communication; optical communication network; photonic crystal nanocavity devices; processor chip; ultralow-power nanophotonics devices; wavelength-sized photonic devices; Cavity resonators; Nanophotonics; Optical interconnections; Optical switches; Photonic crystals; integrated nanophotonics; optical interconnect; photonic crystal; photonic integrated circuit; photonic network on chip;
Conference_Titel :
Transparent Optical Networks (ICTON), 2013 15th International Conference on
Conference_Location :
Cartagena
DOI :
10.1109/ICTON.2013.6602732
