In an earlier paper I developed a perturbation theory of the mode conversion effects between guided modes and of the radiation losses of a given guided mode caused by deviations from perfect straig
The study of radiation losses of dielectric waveguides, which has been described in three earlier papers, 1-3 has been extended to cover abrupt steps in a single mode waveguide as well as continuou
A series of earlier papers was devoted to radiation losses of TE and TM modes in dielectric slab waveguides.
Parallel coupled waveguides are the basic building block for a number of integrated optical devices; these include switches,1-6 modulators, and channel dropping or adding filters.7 The techniques u
Metallic electromagnetic bandgap resonator antennas are highly attractive to design very efficient primary feeds of focal array fed reflector antennas for space Tx applications.
New time-resolved luminescence measurements in annealed a-Si:H films confirm that the low energy luminescence band at 0.7 eV represents radiative recombination at dangling bond defects.
The use of an optical communication system in a radiation environment poses unique reliability issues.
This paper describes the first use of a Radiation Hardened by Design (DARE: Design Against Radiation Effects) library for the UMC 180 nm CMOS six-layer metal technology in a telecom application spe
Soliton perturbation theory predicts an incorrect phase distribution for solitons of stochastically-driven nonlinear Schrodinger equations.
The radiation-enhanced diffusion of implanted Au markers in amorphous Si has been measured in the temperature range 77- 693K. Samples were irradiated with 2.5 MeV Ar ions.