We experimentally observe that Si micro-ring modulator(MRM) modulation characteristics are strongly influenced by the modulation data rate and the data pattern and determine this influence is due to the temperature ...We experimentally observe that Si micro-ring modulator(MRM) modulation characteristics are strongly influenced by the modulation data rate and the data pattern and determine this influence is due to the temperature increase caused by dynamic power dissipation within the Si MRM device. We also quantitatively determine the amount of Si MRM resonance wavelength shift due to different modulation data rates, data patterns, and modulation voltages. Our results should be of great help for achieving reliable and optimal modulation characteristics for Si MRMs.展开更多
基金supported by the National Research Foundation of Korea grant funded by the Korean Ministry of Science,ICT and Future Planning(No.2015R1A2A2A01007772)the Materials andParts Technology R&D Program funded by the Korean Ministry of Trade,Industry&Energy(Project No.10065666)
文摘We experimentally observe that Si micro-ring modulator(MRM) modulation characteristics are strongly influenced by the modulation data rate and the data pattern and determine this influence is due to the temperature increase caused by dynamic power dissipation within the Si MRM device. We also quantitatively determine the amount of Si MRM resonance wavelength shift due to different modulation data rates, data patterns, and modulation voltages. Our results should be of great help for achieving reliable and optimal modulation characteristics for Si MRMs.
