Abstract
We examine the scalability of Stokes vector modulation (SVM) to higher-dimensional Stokes spaces in order to decrease the energy consumption of optical links. We propose and study mode vector modulation (MVM), a new multidimensional SVM scheme for transmission over multimode/multicore optical fibers or free-space modes. MVM can be demodulated using a digital polarimetric direct-detection (DD) receiver that is an extension of the original single-mode Stokes vector receiver to multimode links. This paper focuses on the MVM transceiver architecture, the back-to-back performance of optically-preamplified DD MVM receivers, the optimized geometric shaping of the MVM constellation, and the related bit-to-symbol mapping. We show that MVM DD outperforms conventional single-mode, direct-detection-compliant, digital modulation formats by several dB in terms of receiver sensitivity and the SNR gain increases with the number of spatial degrees of freedom (SDOFs)
$N$
. At the conclusion of the study, we consider the potential application of MVM as a substitute for
$M$
-ary pulse amplitude modulation (
$M$
-PAM) or
$M$
-SVM in short-haul optical links and evaluate its benefits and drawbacks.
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