Abstract: Apparatus including an optical signal generator, a data transmission path, and an optical signal receiver. Optical signal generator includes a coherent light source for generating a spectrum of carrier signals at different carrier frequencies, an optical demultiplexer that receives and separates the different carrier signals into separate optical paths, a pair of optical modulators located in each of the separate optical paths to modulate each different carrier signal with a data signal and produce an upper and lower sideband pair at each of the different carrier frequencies, and an optical interleaver to combine the upper and lower sideband pairs into an optical super-channel of interleaved sub-bands. Optical signal receiver includes a demodulator for extracting the data signals. Optical modulators are configured to reuse each carrier signal to transmit different data in each of the upper sideband and the lower sideband and increase the capacity of the super-channel. Also a method.

Abstract: A method for manufacturing a flexible sensor, including: dispersing graphene in a polymeric material; adding a carbon nanotube into the polymeric material; applying an alternating electric field to the polymeric material added with the carbon nanotube to obtain a composite material; attaching a polymeric material film to the obtained composite material; pre-embedding carbon fibers; and heating and curing to obtain a sensor. A CNT bridging effect and an electric field induced arrangement are introduced at an appropriate ratio of polymeric materials such as graphene-PDMS or PMMA to improve a dry-blended method. The flexible sensor manufactured by the improved dry-blended method improves electrical conductivity, a piezoresistive property and a mechanical property of CNT-graphene-PDMS or PMMA and other polymeric materials.