We show error-free 10GBd DQPSK data transmission performance using orbital angular momentum (OAM) modes that are multiplexed and demultiplexed by a low-loss, hybrid-integrated device based on a sil
We demonstrate free-space space-division-multiplexing (SDM) with 15 orbital angular momentum (OAM) states using a three-dimensional (3D) photonic integrated circuit (PIC).
We investigate fundamental loss mechanisms in free-space micromachined optical crossconnects due to diffraction, aperturing, and mirror-curvature, and identify means of combating them.
Bridging the so-called last mile in telecommunication networks has revived interest in free space optical (FSO) data transmission links.
Abstract - Dramatically increasing bandwidth in telecommunication equipments motivates exploration of new technologies for backplane implementation.
Optical digital computers offer the potential for massively parallel operation at high speed.
The continuing increases in clock speed and electronic complexity of today's high performance digital systems have led to widespread investigation of new multi-technology interconnect and packaging
We present results from a system that shows that multimode fibers can be used for both the input and the output of a free-space optical system.
Experimental results for an optical free-space high-speed link using direct modulated mid-infrared (lambda = 8.1 mum) quantum cascade lasers are presented, A total of 800 digitally encoded multimed
A multiple FSO field-trial has been deployed in the surrounding area of Milan, Italy. After a brief description of the setup we focus our attention on the factors impacting system availability.
