The highest relative core multiplicity factor and number of spatial channels are achieved simultaneously by employing 12 hexagonally arranged 10-mode cores ...

In this work, we realized an FM-MCF that can provide both the highest RCMF of more than. 100 and 120 spatial channels, while deploying. 12 hexagonally packed 10 ...

Channel numbers of 37 and 45 have been achieved using MCFs and MMFs, respectively [237,238]. A large channel count exceeding 100 has been experimentally ...

Inproceedings,. 120 Spatial Channel Few-Mode Multi-Core Fibre with Relative Core Multiplicity Factor Exceeding 100. T. Sakamoto, K.

120 Spatial Channel Few-mode Multi-core Fibre with Relative Core Multiplicity Factor Exceeding 100. European Conference on Optical Communications (ECOC 2018).

2018 120 spatial channel few-mode multi-core fibre with relative core multiplicity factor exceeding 100. Ye et al. 2016 Design of homogeneous trench-assisted ...

Nakajima, “120 Spatial Channel Few-mode Multi-core Fibre with Relative Core Multiplicity Factor Exceeding 100,” Proc. of ECOC 2018, We3E.5, Rome, Italy ...

Azusa Urushibara's 12 research works with 90 citations, including: Spatial Density and Splicing Characteristic Optimized Few-Mode Multi-Core Fiber.

Aug 28, 2020 · Nakajima, “120 spatial channel few-mode multi-core fibre with relative core multiplicity factor exceeding 100,” in. 2018 European Conference ...

Few-mode multicore fiber (FM-MCF) could allow for a two orders of magnitude increase in capacity by using the individual spatial modes in the different cores as ...