Chromatic dispersion tolerance of high‐speed and spectral‐efficient optical signal converted from terahertz‐wave signal

Transmission characteristics of an optical signal, which is converted from a high‐speed terahertz‐wave signal with high spectral efficiency, are investigated and reported. A Nyquist time division multiplexing 40 Gbit/s on–off keying signal in the terahertz band is generated with high‐speed photo‐mixing. The generated terahertz‐wave signal is again converted into an optical signal with heterodyne detection, optical intensity modulation, and optical filtering. Then the chromatic dispersion tolerance of the converted optical signal is investigated in order to obtain knowledge for realising the connection between the fibre‐optic and the wireless links. After briefly explaining the conversion method, some related experimental results are reported. The results include evaluation of chromatic dispersion tolerance with regard to the optical signal at the final stage. As a sequel to bit error rate measurement, the optical signal can be transmitted to a 9 km‐long single‐mode fibre without chromatic dispersion compensation.