Multi-Rate and Multi-Channel Optical Equalizer Based on Photonic Integration

Multi-Rate and Multi-Channel Optical Equalizer Based on Photonic Integration

We propose and experimentally demonstrate a photonic integrated circuit (PIC) that operates as an optical equalizer (OE) with multi-rate and multi-channel capability. The OE has the structure of a 3-tap direct form finite impulse response (FIR) filter and is based on the use of micro-ring resonators...

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Veröffentlicht in:IEEE photonics technology letters 2020-12, Vol.32 (23), p.1465-1468
Hauptverfasser: Kouloumentas, Christos, Tsokos, Christos, Groumas, Panos, Gounaridis, Lefteris, Raptakis, Adam, Mylonas, Elias, Andrianopoulos, Efstathios, Worhoff, Kerstin, Lawniczuk, Katarzyna, Leinse, Arne, Avramopoulos, Hercules
Format: Artikel
Sprache:eng
Schlagworte:
Adaptive optics
Bandwidths
Delay lines
Engineering
Engineering, Electrical & Electronic
Equalizers
Finite impulse response filters
FIR filters
Integrated circuits
Integrated optics
micro-ring resonators
On-Off Keying
Optical device fabrication
Optical equalizer
Optical filters
optical FIR filter
optical interconnects
Optical resonators
Optics
Phase shifters
Photonics
Physical Sciences
Physics
Physics, Applied
PIC technology
Science & Technology
silicon nitride
Technology
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Beschreibung
Zusammenfassung:We propose and experimentally demonstrate a photonic integrated circuit (PIC) that operates as an optical equalizer (OE) with multi-rate and multi-channel capability. The OE has the structure of a 3-tap direct form finite impulse response (FIR) filter and is based on the use of micro-ring resonators (MRRs) for the tuning of its delay lines. The PIC is fabricated on TriPleX platform and has 17 reconfigurable elements in total including nine MRRs, five optical couplers and three standalone phase shifters. Using this OE in an on-off keying system with bandwidth limitations we achieve an eye-diagram opening improvement more than 14 dB working with signals at 4.67 and 5.84 Gbaud both in single- and dual-channel operation. Extension to higher modulation formats is direct. Extension to higher symbol rates is also possible via the use of smaller MRRs.
ISSN:1041-1135
1941-0174
DOI:10.1109/LPT.2020.3035506