Spatially depolarised laser radiation

“…2 and from the comparison of Eqs. (4) and (14), one can see that the polarization structure of an SA2-beam is produced by the rotation of a SA1-beam structure rotation by 90°. At the same time, no A-structure can be converted into a B-structure by rotation.…”

“…In other words, its state of polarization gradually changes in space and can be characterized by the so-called polarization structure (see, for instance [1][2][3][4][5][6][7]). The components of electric field E of the polarization-inhomogeneous radiation are characterized by different spatial amplitude and phase distributions; one has to take into account the longitudinal component of the field.…”

Formation of polarization-symmetrical beams using cube-corner reflectors

“…2 and from the comparison of Eqs. (4) and (14), one can see that the polarization structure of an SA2-beam is produced by the rotation of a SA1-beam structure rotation by 90°. At the same time, no A-structure can be converted into a B-structure by rotation.…”

“…In other words, its state of polarization gradually changes in space and can be characterized by the so-called polarization structure (see, for instance [1][2][3][4][5][6][7]). The components of electric field E of the polarization-inhomogeneous radiation are characterized by different spatial amplitude and phase distributions; one has to take into account the longitudinal component of the field.…”

Formation of polarization-symmetrical beams using cube-corner reflectors

Calculation of polarization aberrations by the method of polarization-wave matrices

Polarization structure of radiation in the focal region of a lens