Degradation of beam quality and depolarization of the laser beam in a step-index multimode optical fiber

Abstract

The characteristics of a laser beam are altered during propagating through large-core multimode optical fibers. The distribution of modes excited by the input laser beam is modified by means of mode coupling on transmission through the fiber, leading to the degradation of beam quality and the depolarization of the delivered beam. The relationship between the beam quality factor ( M 2) of output beam from a large-core multimode fiber and the fiber length, as well as the relationship between the degree of polarization ( V) of output beam from such a fiber and the fiber length, are introduced in this paper. When a laser beam was well launched into a large-core step-index multimode fiber, M 2 of the output beam was a compound tanh function of the fiber length. A linear polarization beam that well launched into such fiber suffered depolarization. The V of the output beam was an exponent function of fiber length. And the misalignment between beam axis and fiber axis made the beam quality degrade faster but made no difference of the utmost M 2 in the aligned and misaligned conditions. Also, the misalignment condition made the polarization of output beam degrade faster.