Spin-to-orbital angular momentum conversion in harmonic generation driven by intense circularly polarized laser

Spin-to-orbital angular momentum conversion (STOC) is a very important fundamental phenomenon governed by the conservation of total angular momentum (TAM). In optics, this conversion is usually associated with the vortex light carrying the orbital angular momentum (OAM). In this paper we demonstrate...

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Bibliographic Details
Published inNew journal of physics Vol. 22; no. 1; pp. 13054 - 13066
Main Authors Li, Shasha, Zhang, Xiaomei, Gong, Weifeng, Bu, Zhigang, Shen, Baifei
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.01.2020
Subjects
Angular momentum
angular momentum conversion
Circular polarization
Conservation
Conversion
Electric fields
harmonic generation
Harmonic generations
Laser beams
laser-plasma interaction
Lasers
Phase plates
Photons
Physics
Vortices
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Summary:Spin-to-orbital angular momentum conversion (STOC) is a very important fundamental phenomenon governed by the conservation of total angular momentum (TAM). In optics, this conversion is usually associated with the vortex light carrying the orbital angular momentum (OAM). In this paper we demonstrate a new mechanism to achieve STOC via the interaction of an intense circularly polarized (CP) laser pulse with a solid density plasma target. We find that when a laser pulse with relativistic intensity is tightly focused, a longitudinal electric field is induced owing to the finite transverse size and profile of the laser field. Therefore, even for the normally incident CP laser, the induced longitudinal electric field can drive an oscillating vortex plasma surface to emit the vortex harmonics when the laser interacts with the plasma target. Based on simulations and theoretical analysis, we verify this harmonic generation mechanism and reveal the STOC process in the harmonic generation. It is shown that the spin angular momenta of multiple fundamental-frequency photons are converted to the OAM of a single harmonic photon because of the TAM conservation. We also discuss the dynamical symmetries in the harmonic generation process, which physically constrains the harmonic orders, as well as the angular momenta. In addition, if a vortex laser beam or a spiral phase plate is used, the OAM of the harmonic photon becomes more tunable and controllable. This study provides a deep insight into the nature of the spin-orbital interaction in optics.
Bibliography:NJP-110909.R2
ISSN:1367-2630
1367-2630
DOI:10.1088/1367-2630/ab6873