A main result of COYOTE is the analogue realization of coherent optical signal detection. The homodyne method of converting signals from the optical to the electrical domain ensures frequency- and phase stability for this process. This greatly simplifies coherent systems, which up to now are typically laid out in the digital domain and therefore faces a complexity roadblock with respect to their direct-detection counterparts when it comes to practical deployment. The obtained opto-electronic signal conversion at low error ratios without additional means for digital signal processing greatly contributes to the energy- and cost-efficiency, which is an important merit for sensitive short-reach network segments.
Moreover, state-of-the-art realizations are bound to dedicated transmitter and receiver sub-systems, while COYOTE realizes coherent transceiver functionality in a single element. Towards this direction, full-duplex transmission has been conducted with the same laser-modulator device for digital and analogue data transmission and investigated in view of possible transmission impairments.
Having demonstrated its key concepts, COYOTE will aim at blending opto-electronics and electronics in its next phase, in order to raise key performance indicators such as supported bandwidth, reception sensitivity and energy efficiency for its coherent data transmission. Towards this direction, the ERC Action has demonstrated for the first time,
- analogue coherent reception for >100 Gb/s/λ with flexible detect / transmit mode of its photonic engine,
- full-duplex radio signal transmission over the same wavelength and the same frequency at the same time,
- energy harvesting of 0-bits within a data stream to power optical telecommunication subsystems,
- a silicon light source as optical power supply for all-silicon photonic integrated circuits.