A fiber-optic sensor system (FOSS) consists of an optoelectronic hub, optical fibers, and an optical sensor or sensor network.
Fiber-optic technology is on the verge of revolutionizing the transducer/sensor market.
This paper describes the technical aspects of optical access solutions for mobile fronthaul application. The mobile context and main constraints of fronthaul signals are presented.
A new technique using single-mode fibers as spatial filters for probing carrier dynamics such as diffusion and recombination is introduced.
We investigate the performance characteristics of single-mode optical fiber tapers.
We have experimentally demonstrated the applicability of optical fiber tapers at 1.3micron as a simple and practical means of achieving beam expansion in a self-aligned unitary structure.
This book is a sequel to OPTICAL FIBER TELECOMMUNICATIONS, 1979, edited by S.E. Miller and A.G. Chynoweth.
INTRODUCTION: As optical communications systems progress to higher data rates, reflection effects become increasingly detrimental to system performance.
We have developed an extensive CRAY computer-based simulator employing the propagating beam method for the accurate evaluation of the performance of optical fiber up-tapers.
Optical fibers have wide range applications in emerging technologies. This talk will give specific applications of optical fibers as related to current technological requirements.
