Abstract
Speckle-free imaging using a multimode fiber has been widely used for imaging systems. Generally, previous work has assumed that all the propagating modes of the fiber are uniformly excited, but the modal power distribution is actually affected by excitation conditions. Here, we propose the utilization of a modal analysis method to study the dependence of the speckle contrast on the modal power distribution by changing the tilt angle of the Gaussian beam and on the group delay time difference caused by different fiber lengths. The results of numerical simulations and experiments show that, with an increase in the tilt angle of the Gaussian beam, the modal power is transferred to higher-order modes and the maximum delay difference between excitation modes becomes larger. Therefore, the inter-mode interference effect is effectively weakened, and the speckle contrast is significantly reduced. The increase in fiber length will also make the delay difference between excitation modes larger and thus the speckle contrast is decreased. For the larger tilt angle of the Gaussian beam, only a shorter optical fiber is required to reduce the speckle contrast significantly. Our work further promotes the use of a multimode fiber to produce speckle-free patterns in laser imaging systems.
Highlights
Numerical simulations and experiments were conducted to investigate the dependence of the speckle contrast on the modal power distribution by changing the tilt angle of the Gaussian beam and on the group delay time difference caused by different fiber lengths
Speckle reduction using a multimode fiber has an important advantage in laser imaging systems because it is a passive method that does not increase power consumption or complicate the system
When a highly coherent laser is coupled with the multimode fiber, the modal power distribution is affected by the excitation conditions, which will have a crucial impact on speckle formation
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. It is necessary to study the relationship between the speckle contrast at the output of a multimode fiber and inter-mode interference under various excitation conditions. The modal power distributions under different excitation conditions in a weakly guided multimode fiber were theoretically investigated. A modal analysis method was employed to derive general expressions for the speckle contrast at the output of a multimode fiber, which revealed that the speckle contrast is related to the power excitation coefficient and spatial configuration of guided modes, the group delay time difference (intermodal dispersion), and the temporal coherence of the laser source. Numerical simulations and experiments were conducted to investigate the dependence of the speckle contrast on the modal power distribution by changing the tilt angle of the Gaussian beam and on the group delay time difference caused by different fiber lengths
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