We study numerically and experimentally the optical signal-to-noise ratio margin of high-speed transmissions in the nonlinear regime.
We study numerically and experimentally the optical signal-to-noise ratio margin of high-speed transmissions in the nonlinear regime.
The number of stations that can be put on an optical fiber data bus is usually limited by the total allowable attenuation between transmitter and receiver.
The linear and quadratic electro-optic coefficients of 6nm wide GaAs/Al0.2Ga0.8As quantum wells have been measured over a wide range of detuned energies.
The dependence of the performance of a simple multimode optical fiber transmission system on launch conditions is evaluated.
Low frequency noise (LFN) is a reliable diagnostic tool to evaluate and locate the defects of a technology.
Abstract: Despite the first ever standardization of a passive optical network (PON) that exclusively uses an expansion in the wavelength domain rather than the time domain to enhance network throug
In this paper, we summarize the basics of PCS for high-speed optical links and describe current progress toward transferring this technology to wired copper networks leveraging DOCSIS and DSL techn
Single-user, multiuser, and network MIMO performance is evaluated for downlink cellular networks with 12 antennas per site, sectorization, universal frequency reuse, scheduled packet-data, and a de
We propose a joint equalizer optimization technique for a coherent receiver and show by simulations that this technique can restore the PMD tolerance of a coherent receiver that is degraded by othe