Vector Light Field Immediately behind an Ideal Spherical Lens: Spin–Orbital Conversion, Additional Optical Vortices, Spin Hall Effect, Magnetization

Abstract: The Richards–Wolf formulas not only adequately describe a light field at a tight focus, but also make it possible to describe a light field immediately behind an ideal spherical lens, that is, on a converging spherical wave front. Knowing all projections of light field strength vectors behind the lens, the longitudinal components of spin and orbital angular momenta (SAM and OAM) can be found. In this case, the longitudinal projection of the SAM immediately behind the lens either remains zero or decreases. This… Show more

“…This study may provide a new reference in the fabrication of graphene-based plasmonic sensor devices. Interestingly, if the vortex beam is introduced, the methods for flexibly manipulating photonic SHE and APSHE by altering beam parameters can be explored, and even the application of detecting topological phase can be proposed by means of beam shifts as a probe [48][49][50]. Therefore, it holds great promise for modulation and sensing based on the combination of vortex beam and surface plasmon structures.…”

Active manipulation of the plasmonic induced asymmetric photonic spin Hall effect

“…This study may provide a new reference in the fabrication of graphene-based plasmonic sensor devices. Interestingly, if the vortex beam is introduced, the methods for flexibly manipulating photonic SHE and APSHE by altering beam parameters can be explored, and even the application of detecting topological phase can be proposed by means of beam shifts as a probe [48][49][50]. Therefore, it holds great promise for modulation and sensing based on the combination of vortex beam and surface plasmon structures.…”

Active manipulation of the plasmonic induced asymmetric photonic spin Hall effect