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We experimentally demonstrate and investigate the performance of a multi-input-multiple-output (MIMO) free-space optical link employing orbital-angular-momentum multiplexing through turbulent channel. We show that turbulence effects can be mitigated by exploiting spatial diversity and MIMO equalization.
Using beam divergence controlling to mitigate angular error effects in OAM-based FSO links is investigated through simulation and experiment. Results show that controlling beam divergence allows reducing power loss and angular error induced channel crosstalk.
We experimentally demonstrate free-space optical transmission using two multiplexed OAM-carrying Bessel beams under obstructed path conditions. An OSNR penalty < 2.5 dB is observed when the obstruction is placed in the beam center.
We demonstrate a scheme that can arbitrarily manipulate the orbital-angular-momentum (OAM) and the polarization of each data channel in an OAM- and polarization-multiplexed communication system. A manipulation-induced power penalty of < 1dB is observed when 100 Gbit/s Quadrature-phase-shift-keying data is carried on each channel.
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