Depolarization classification of metallic and dielectric targets

Abstract: The reflection polarization properties of a given target evolve according to its surface state and to the illumination angle. The depolarization after reflection produced by an iron target whose surface was progressively debased was studied; its initial surface was polished up to one micron. These results were compared to the depolarization obtained from one Teflon sample and one dark dielectric. In the Teflon sample depolarization is due to volume diffusion whereas in dielectric surface and volume are involve… Show more

“…It consists of 16 real-valued coefficients [19,20]. However, when observing natural scenes in monostatic configuration, i.e., when the illumination beam is aligned with the line of sight and when the objects are purely depolarizing, the Mueller matrix of most materials becomes diagonal [21,22], that is,…”

Near-infrared active polarimetric and multispectral laboratory demonstrator for target detection

“…It consists of 16 real-valued coefficients [19,20]. However, when observing natural scenes in monostatic configuration, i.e., when the illumination beam is aligned with the line of sight and when the objects are purely depolarizing, the Mueller matrix of most materials becomes diagonal [21,22], that is,…”

Near-infrared active polarimetric and multispectral laboratory demonstrator for target detection

Active spectro-polarimetric imaging: signature modeling, imaging demonstrator and target detection

Multispectral polarimetric imaging with coherent illumination: towards higher image contrast