The generalized Schroedinger equation that governs wave propagation in a rapidly-spun fiber was derived in a previous report (ITD-06-46951J).
Parametric amplification is made possible by four-wave mixing. In low-birefringence fibers the polarization axes and birefringence strength vary randomly with distance.
We report what we believe to be the first experimental demonstration of nondegenerate four-wave mixing in a microstructure fiber.
We analyze four-wave mixing in negative refractive index media where at least one of the interacting waves has a negative index of refraction and explore some of the different perfectly phase match
We investigate efficiency of four-wave mixing (FWM) generation in quasi-distributed erbium-doped fiber (EDF) sections under general power evolution conditions.
Exact formulas are obtained for the amplitudes of light waves involved in four-wave-mixing cascades near the zero-dispersion frequency of a fiber.
A combined electrical and electro-mechanical system.
Feedback strategies are presented for the K-user white Gaussian multiple-access channel.
Fourier domain optical coherence tomography (FDOCT) is applied to measure the cross-section of optical fibres.
In this note, we shall present a new class of Gaussian filters called Fourier-Hermite Kalman filters.
