Compound Speckle Reduction in Laser Imaging Systems by Using a Vibrating Multimode Fiber and a Tracked Moving Flexible DOE Loop

Abstract: The speckle phenomenon produced by coherent waves interfering with each other is undesirable in laser imaging systems. For each of the laser speckle reduction methods in the literature, it is difficult to reduce speckle to an extremely low level (<3%) and also ensure good image quality. Therefore, a compound speckle reduction method based on the combination of a vibrating multimode fiber and a tracked moving flexible DOE loop is proposed and demonstrated for the first time. We have experimentally demonstrated … Show more

“…Whether it is accumulated or dispersed is solely a characteristic property of the material. It is considered that when light is incident on a material, the entire energy of the signal or light may be accumulated or dispersed at that point, depending on the properties of the surface and the material's nature [13]. When a material is exposed to a highly intense laser beam, vibration of the material occurs at both the surface level and the atomic level.…”

Laser processing of composite materials for acoustic applications

“…Whether it is accumulated or dispersed is solely a characteristic property of the material. It is considered that when light is incident on a material, the entire energy of the signal or light may be accumulated or dispersed at that point, depending on the properties of the surface and the material's nature [13]. When a material is exposed to a highly intense laser beam, vibration of the material occurs at both the surface level and the atomic level.…”

Laser processing of composite materials for acoustic applications

Effect of rough screen on speckle suppression by wavelength and angle diversity in laser projection systems

Color-speckle assessment in multi-primary laser-projection systems based on a 3D J_za_zb_z color space