English

Spin-to-Orbital Angular Momentum Conversion via Light Intensity Gradient

Optics 2021-07-08 v1

Abstract

Besides a linear momentum, optical fields carry an angular momentum (AM), which have two intrinsic components: one is spin angular momentum (SAM) related to the polarization state of the field, and the other is orbital angular momentum (OAM) caused by the helical phase due to the existence of topological azimuthal charge. The two AM components of the optical field may not be independent of each other, and the Spin-to-Orbital AM conversion (STOC) under focusing will create a spin-dependent optical vortex in the longitudinal filed. Here we demonstrate a new mechanism (or novel way, new way, specific process) for the STOC based on a radial intensity gradient. The radial phase provides an effective way to control the local AM density, which induce counterintuitive orbital motion of isotropic particles in optical tweezers without intrinsic OAM. Our work not only provides fundamental insights into the spin-orbit interaction of light, but also push towards possible applications in optical micro-manipulation.

Keywords

Cite

@article{arxiv.2107.03005,
  title  = {Spin-to-Orbital Angular Momentum Conversion via Light Intensity Gradient},
  author = {Shuang-Yin Huang and Guan-Lin Zhang and Qiang Wang and Min Wang and Chenghou Tu and Yongnan Li and Hui-Tian Wang},
  journal= {arXiv preprint arXiv:2107.03005},
  year   = {2021}
}

Comments

17 pages, 6 figures

R2 v1 2026-06-24T03:57:17.733Z