Enhanced flexibility in optical transport networks is a key requirement to support dynamic traffic load in packet based networks.
This paper describes convenient, non-contacting technique for determining the flexural rigidity and residual stress in thin membranes.
Photoluminescence spectra from Al(x)Ga(1-x)As/AlAs multi-quantum- well structures are presented which provide the first direct optical confirmation of staggered band alignments in this technologica
We report photoluminescence (PL), excitation (PLE), and resonant Raman (RRS) experiments in (GaAs) sub 1 (AlAs) sub 1 and (GaAs) sub 2 (AlAs) sub 2 superlattices grown by MBE.
Novel hybrid III-V/Si Fabry-Perot lasers are studied under a combination of two optical feedbacks with a short (; 10 μm) and long (10 m) cavity.
This paper reports on the tolerance of low-dimensional InAs/InP quantum-dash- and quantum-dot-based semiconductor lasers to optical feedback in the 1.55 mu m window.
We apply information theory to optical fibers in the context of transmitting information in optical network.
We apply information theory to optical fibers in the context of transmitting information in optical networks.
In this chapter, the construction and the optical and mechanical performance of these four leading designs for outside plant applications are summarized.
Plastic-clad silica (PCS) fibers having a rubbery cladding offer a distinct advantage for chemical sensing applications in that small molecule chemical species will diffuse through the cladding ver
