We present a novel opto-electronic clock recovery concept based on in-band phase-modulated pilot insertion. Successful retrieval of a 40-GHz clock and error-free demultiplexing of 160-to-40 Gbit/s is demonstrated
40 GHz clock extraction from a common 40 Gbit/s NRZ signal is experimentally demonstrated. First, a ...
A 40GHz clock with low jitter is recovered from a 640Gbit/s optical time-division multiplexed (OTDM)...
We experimentally demonstrate 40 GHz all-optical clock recovery from a common 40 Gb/s NRZ signal. We...
We present a novel opto-electronic clock recovery concept based on in-band phase-modulated pilot ins...
A phase-comparator-free clock recovery is proposed based on adding the base-rate clock to the optica...
We present successful extraction of a 10 GHz clock from single-wavelength 160 and 320 Gbps OTDM data...
This work describes the set-up, the characteristics and the experimental tests of an optical clock r...
A 40 GHz clock with low jitter is recovered from a 640 Gbit/s optical time-division multiplexed (OTD...
Abstract—Compact optical clock recovery is demonstrated by utilizing filtered and amplified photocur...
We demonstrate pre-scaled 40 GHz clock recovery from 640 Gbit/s optical time-division-multiplexed da...
Clock recovery (CR) from a 160-Gb/s data signal is demonstrated using a single unidirectional electr...
All-optical clock recovery for the return-to-zero modulation format is demonstrated experimentally a...
A first demonstration of an all-optical clock recovery module based on a new generation of self-puls...
A 10 GHz clock recovery from a 160 Gb/s data signal is demonstrated using a bidirectionally operated...
A 40 GHz clock signal is recovered from a single-polarisation 320 Gbit/s data signal using a bidirec...
40 GHz clock extraction from a common 40 Gbit/s NRZ signal is experimentally demonstrated. First, a ...
A 40GHz clock with low jitter is recovered from a 640Gbit/s optical time-division multiplexed (OTDM)...
We experimentally demonstrate 40 GHz all-optical clock recovery from a common 40 Gb/s NRZ signal. We...
We present a novel opto-electronic clock recovery concept based on in-band phase-modulated pilot ins...
A phase-comparator-free clock recovery is proposed based on adding the base-rate clock to the optica...
We present successful extraction of a 10 GHz clock from single-wavelength 160 and 320 Gbps OTDM data...
This work describes the set-up, the characteristics and the experimental tests of an optical clock r...
A 40 GHz clock with low jitter is recovered from a 640 Gbit/s optical time-division multiplexed (OTD...
Abstract—Compact optical clock recovery is demonstrated by utilizing filtered and amplified photocur...
We demonstrate pre-scaled 40 GHz clock recovery from 640 Gbit/s optical time-division-multiplexed da...
Clock recovery (CR) from a 160-Gb/s data signal is demonstrated using a single unidirectional electr...
All-optical clock recovery for the return-to-zero modulation format is demonstrated experimentally a...
A first demonstration of an all-optical clock recovery module based on a new generation of self-puls...
A 10 GHz clock recovery from a 160 Gb/s data signal is demonstrated using a bidirectionally operated...
A 40 GHz clock signal is recovered from a single-polarisation 320 Gbit/s data signal using a bidirec...
40 GHz clock extraction from a common 40 Gbit/s NRZ signal is experimentally demonstrated. First, a ...
A 40GHz clock with low jitter is recovered from a 640Gbit/s optical time-division multiplexed (OTDM)...
We experimentally demonstrate 40 GHz all-optical clock recovery from a common 40 Gb/s NRZ signal. We...
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