Time–frequency characteristics of single-mode fiber dispersion

## Abstract To realize single‐frequency of the fiber laser, a ring configuration is devised. The single‐frequency operation is realized at 1549.63 nm by using a fiber Bragg grating (FBG) as wavelength‐selective element and a unpumped 1.5 m‐long erbium‐doped fiber, which can produce standing‐wave sa

Electromagnetic pulse propagation in an arbitrary disper-si¨e medium is in¨estigated. A quasimonochromatic pulse is assumed, and for this case, separate analytical in¨estigations for two cases of dispersion, called linear and quadratic dispersion, are carried out. Exact and con¨enient calculation fo

We analyze nonlinear coupling of polarized solitons in the presence of initial frequency chirp on the basis of a theoretical model described by a coupled nonlinear Schrodinger equations. Ẅe also obtain a threshold condition for the bound state of two polarizations and show analytically that the thr

## Abstract A simple numerical method has been proposed to compute dispersion for single‐mode graded‐index fibers with power law profile. The results so obtained are in excellent agreement with those obtained by more complicated methods proposed earlier. It has been shown that there two core radii

## Abstract The effect of modulated signal frequency on ringdown spectrum of a single‐mode fiber Fabry‐Perot cavity is discussed experimentally. It demonstrates that the beat period is independent of modulated frequency, but the observed beat number is related to modulated frequency. The observed b

We report a detailed characterization of the properties of a chirped fiber Bragg grating with respect to the amount of applied chirp. The results demonstrate the reflection and dispersion dependencies associated with any linearly chirped grating. The dispersion of the device tested could be continuo