Publications

This paper describes an optical heterodyne receiver for DPSK signals which can accept an optical signal having an arbitrary polarization state.

We propose and demonstrate the first polarization independent electro-optically tunable wavelength filter with single-mode waveguides.

40 GHz self-pulsating distributed Bragg reflector lasers with a polarization insensitive bulk active layer of 0.7×0.5 μm2 showed enhanced non-linear behavior at low power level, and nearly 1 GHz of

We employ molecular dynamics (MD) simulations to study the structure of vitreous boron oxide.

We experimentally observe polarization-locked vector solitons in optical fiber.

We have characterized the performance of a polarization maintaining fiber (PMF) coupler at lambda=1.5microns and demonstrated its use as an optical mixer in a 400 Mbit/s DPSK heterodyne transmissio

As the bit-rate and distance of optical fiber transmission systems continue to increase, the understanding of polarization mode dispersion (PMD), its systems impairments and mitigation are becoming

Summary form only given.

The phenomena associated with second and higher order polarization-mode dispersion are of interest to designers of high-speed lightwave systems.

The problem of high-speed data transmission at a bit rate B > 10 Gbps, through a single mode optical fiber (SMF) subject to polarization mode dispersion (PMD), is addressed in this paper.