AI Article Synopsis
- Optical twisters are unique light beams that possess both a helical phase profile and a helical amplitude profile, contrasting with traditional Laguerre-Gaussian beams.
- These beams can induce spiral motion on trapped particles along their path and maintain high photon concentration in the far field even at higher topological charges.
- Optical twisters hold significant potential for applications in quantum entanglement, creating toroidal traps for cold atoms, and manipulating microscopic particles in fundamental studies of light and atoms.
Article Abstract
Light beams with helical phase profile correspond to photons having orbital angular momentum (OAM). A Laguerre-Gaussian (LG) beam is an example where its helical phase sets a phase-singularity at the optical axis and forms a ring-shaped transverse amplitude profile. Here, we describe a unique beam where both phase and amplitude express a helical profile as the beam propagates in free space. Such a beam can be accurately referred to as an optical twister. We characterize optical twisters and demonstrate their capacity to induce spiral motion on particles trapped along the twisters' path. Unlike LG beams, the far field projection of the twisted optical beam maintains a high photon concentration even at higher values of topological charge. Optical twisters have therefore profound applications to fundamental studies of light and atoms such as in quantum entanglement of the OAM, toroidal traps for cold atoms and for optical manipulation of microscopic particles.
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| http://dx.doi.org/10.1364/OE.19.000476 | DOI Listing |
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