搜索结果: 1-6 共查到“光学工程 WDM channels”相关记录6条 . 查询时间(0.046 秒)
Experimental Demonstration of Data Traffic Grooming of a Single 10-Gbit/s TDM Tributary Channel between Two 160-Gbit/s WDM Channels
Optical communications Nonlinear optics parametric process
2015/6/10
We demonstrate tributary channel data grooming of high-speed signals using second-order nonlinearities in a PPLN waveguide. 16 TDM tributary channel data traffic grooming/exchange between two 160-Gbit...
Real-time Detection of a 40 Gbps Intradyne Channel in the Presence of Multiple Received WDM Channels
Fiber optics communications Networks Coherent communications
2015/6/5
We characterize a single-ended intradyne receiver’s performance when multiple channels are received without optical demultiplexing. A 40Gb/s dual-polarization QPSK channel is recovered from 16 interfe...
On the Required Number of WDM Channels When Assessing Performance of 100Gb/s Coherent PDM-QPSK Overlaying Legacy Systems
WDM Channels When Assessing Performance Coherent PDM-QPSK Overlaying Legacy Systems
2015/7/15
We experimentally analyze WDM nonlinear impairments brought by co-propagating 10Gb/s NRZ channels onto a 100Gb/s PDM-QPSK channel. The PDM-QPSK channel can experience strong nonlinear interactions eve...
Error-free transmission of 8 WDM channels at 10 Gbit/s using comb generation in a quantum dash based mode-locked laser
Error-free transmission WDM channels quantum dash mode-locked laser
2015/8/6
Error-free transmission over 50km single mode fiber of 8 WDM ITU channels with 100GHz channel spacing is demonstrated at 10Gbit/s by using comb generation in a quantum dash mode-locked laser.
All-optical equalization of power transients on four 40 Gbit/s WDM channels using a fiber-based device
All-optical equalization power transients WDM channels fiber-based device
2015/8/3
Simultaneous transient suppression of four transient-impaired 40 Gbit/s RZ-ASK WDM channels is demonstrated.Sensitivity improvements are in excess of 5 dB and transmission penalties are significantly ...
Simultaneous Processing of 43 Gb/s WDM Channels by a Fiber-Based Dispersion-Managed 2R Regenerator
Gb/s WDM Channels Dispersion-Managed 2R Regenerator
2015/8/3
We demonstrate 43 Gb/s multi-channel 2R regeneration in a single dispersion-managed fiber, based on SPM-induced spectral broadening and subsequent offset filtering.