@article{oai:nagoya.repo.nii.ac.jp:00026312,
 author = {Qin, Chuan and Gao, Xumin and Yuan, Jialei and Shi, Zheng and Jiang, Yuan and Liu, Yuhuai and Wang, Yongjin and Amano, Hiroshi},
 issue = {5},
 journal = {Applied Physics Express},
 month = {May},
 note = {A monolithic near-ultraviolet multicomponent system is implemented on a 0.8-mm-diameter suspended membrane by integrating a transmitter, waveguide, and receiver into a single chip. Two identical InGaN/Al0.10Ga0.90N multiple-quantum well (MQW) diodes are fabricated using the same process flow, which separately function as a transmitter and receiver. There is a spectral overlap between the emission and detection spectra of the MQW diodes. Therefore, the receiver can respond to changes in the emission of the transmitter. The multicomponent system is mechanically transferred from silicon, and the wire-bonded transmitter on glass experimentally demonstrates spatial light transmission at 200 Mbps using non-return-to-zero on–off keying modulation., ファイル公開：2019/05/01},
 title = {Transferrable monolithic multicomponent system for near-ultraviolet optoelectronics},
 volume = {11},
 year = {2018}
}