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چکیده
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This research examines, using both theory and experimentation, how a light beam’s spatial coherence
affects a sinusoidal linear Fresnel zone plate’s depth of focus. We generate a one-dimensional partially
coherent Gaussian Schell-model beam from a coherent laser beam through putting a rotating diffuser
near to the common focal plane of two cylindrical lenses in a 2f-system. By adjusting the beam
spot size on the diffuser, one may modify the coherence width of the produced beam. Our findings
demonstrate that when the coherence width of the partly coherent beam drops, the zone plate’s
depth of focus increases. Not only is it claimed that the experimental results validate the theoretical
conclusions, but a mathematical link is also established between the experimental parameter used to
manipulate the light coherence and the theoretically obtained coherence width. This topic has many
applications in the field of optical, microscopy, optical trapping, imaging systems and biomedical.
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