Publications

We experimentally demonstrate transmission over a novel multicore fiber with 9 cores arranged in 3 groups of 3 cores, where strong coupling occurs within the groups and weak couplings between group

We experimentally demonstrate multiple-input-multiple-output transmission of a combined 3-space-, and 2-polarization-, and 5-wavelength-division multiplex in a 3-core microstructured fiber over 420

We experimentally demonstrate space-division multiplexed transmission of 6 polarization- and space channels in a 3-core microstructured fiber over a distance of 4200 km.

We demonstrate the transmission of 6 independent, spatially multiplexed 14-Gb/s QPSK signals over 10 km of three-mode fiber using mode-selective excitation and 6 x 6 MIMO processing..

We demonstrate a silicon photonic integrated circuit for selectively coupling to and for all-optically demultiplexing the six spatial and polarization modes of few-mode fiber (FMF).

of multiple parallel optical paths, is left.

We summarize the latest advances in space-division multiplexing (SDM) for increasing the capacity per fiber strand.

Optical communication over fiber networks are the backbone of our current communication infrastructure..

Over many decades, network traffic has been growing exponentially, with cumulative annual growth rates (CAGRs) between 20% and 100% per year, the exact numbers varying among traffic types, applicat

We review estimates of price-points formulated for the critical enabling components of potential ultra-high-capacity optical fiber transmission systems based on multi-core fibers for several deploy