Dynamic optical arbitrary waveform generation and detection in InP photonic integrated circuits for Tb/s optical communications |
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| Authors: | Nicolas K. Fontaine |
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| Affiliation: | Department of Electrical and Computer Engineering, University of California, Davis, One Shields Ave, Davis, CA 95616, USA |
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| Abstract: | ![]()
This article presents recent results in the development of optical arbitrary waveform generation (OAWG) technologies based on optical frequency combs and indium phosphide devices. A novel spectral-slice dynamic-OAWG approach and waveform shapers with customized spectral multiplexers and modulators, enable continuous generation of high fidelity optical waveforms accessing bandwidths in excess of 1 THz. We show results for two types integrated waveform shapers, a 100 GHz electrically controlled device with 10 channels spaced at 10 GHz and a 1 THz optically controlled device with 100 channels spaced at 10 GHz. Additionally, we include results from a 640 GHz waveform measurement device with 16 channels and 40 GHz spacing. |
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| Keywords: | Optical pulse shaping Integrated optoelectronics Ultrafast measurements Optical device fabrication Coherent optical communications |
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