All-optical wireless wavelength multiplexing and demultiplexing using resonant cavity.

The potential capability of wireless wavelength multiplexing and demultiplexing can enable the next development of smaller photonic counterparts for network architectures. This paper numerically represents a new design of a wireless transmission in C-band infrared wavelengths within two identical resonant cavities between photonic chips. This system consists of an H1 rod-type two-dimensional photonic crystal (PhC) microcavity, which can be operated as both a transmitter and a receiver without interfering with the signal in each PhC waveguide. By using the point-to-point oscillatory light-field exchange between resonant cavities, two independent photonic circuits are linked with each other. The obtained results show that the multi-resonance wavelengths in one chip can be transferred to another chip located far away by ten times the highest resonance wavelength. Such a device can be useful for integrated optical circuit interconnect and small-scale sensors between photonic chips.