Modal decomposition in step-index fibers by optical correlation analysis

Abstract: The different propagating modes in an optical fiber determine the properties of the light emerging the fiber. Therefore an exact knowledge of the modal content is a key to understand the underlying physical effects. Different approaches exist to measure the modal content of an optical fiber, such as interferometry, M 2 measurement or phase retrieval methods with either high experimental complexity or ambiguity relating to the modal content. In this paper we present a method for measuring the modal content by t… Show more

“…In the far field realized by a 2 f -setup the associated intensity patterns are spatially shifted by K g f /k 0 with respect to the optical axis due to the sinusoidal grating with carrier frequency K g . 12 This angular multiplexing allows the simultaneous determination of the modal amplitudes using channels T g = U * l encoding the complex conjugated eigenstates. 13 On the sub-optical axis K g f /k 0 the resulting response I g,x for the x-polarized field component equals I 0 ρ 2 l,x with a normalization factor I 0 .…”

Measurement of local polarization for multi-mode photonic crystal fibers

“…In the far field realized by a 2 f -setup the associated intensity patterns are spatially shifted by K g f /k 0 with respect to the optical axis due to the sinusoidal grating with carrier frequency K g . 12 This angular multiplexing allows the simultaneous determination of the modal amplitudes using channels T g = U * l encoding the complex conjugated eigenstates. 13 On the sub-optical axis K g f /k 0 the resulting response I g,x for the x-polarized field component equals I 0 ρ 2 l,x with a normalization factor I 0 .…”

Measurement of local polarization for multi-mode photonic crystal fibers