Method for determination of the principal modes in a few-mode optical fiber using a multibranch doe

Abstract: We propose a method intended for reconstructing a fiber propagation matrix in few-mode regime and determination of the corresponding principal modes. The method is based on the idea of extending the Jones Matrix Eigenanalysis (JME) technique, which provides.the determination of both the propagation matrix and the principal states of polarization in a single-mode fiber, to the basis of spatial modes in a few-mode fiber. We propose that a multibranch diffractive optical element should be used as a correlation fi… Show more

“…For simulation purposes fiber is derived as a concatenation of coaxial sections with constant parameters. Previously it was shown that fiber bending is the main reason of mode coupling [20]. Corresponding coupling coefficients are derived as…”

Nonlinear impairments in mode division multiplexed systems

“…For simulation purposes fiber is derived as a concatenation of coaxial sections with constant parameters. Previously it was shown that fiber bending is the main reason of mode coupling [20]. Corresponding coupling coefficients are derived as…”

Nonlinear impairments in mode division multiplexed systems

Influence of the linear mode coupling on the nonlinear impairments in few-mode fibers

Design of precision spatial positioning scheme for mode division multiplexing system channels placement over optical fiber core end