Scaling law from orbital angular momentum conservation in harmonic and high-order harmonic generation driven by spatiotemporal light fields

TL;DR

This paper investigates the scaling laws of orbital angular momentum in harmonic generation driven by complex light fields, revealing a new universal rule that explains phenomena beyond traditional Laguerre-Gauss beam models.

Contribution

It introduces a general scaling law for orbital angular momentum conservation in harmonic generation with diverse structured light fields, extending beyond Laguerre-Gauss beams.

Findings

Established a universal scaling rule for OAM in HHG.

Explained phenomena not accounted for by traditional LG beam models.

Demonstrated OAM conservation in complex spatiotemporal fields.

Abstract

Nonlinear photon upconversion processes driven by diverse forms of structured light are receiving increasing attention. In harmonic and high-order harmonic generation (HG and HHG) with Laguerre-Gauss (LG) beams, linear scaling the driver topological charge (TC) with the harmonic order is equivalent to driver orbital angular momentum (OAM) per photon scaling, and constitutes a proof of OAM conservation. However, with generic driving fields, such as non-LG vortices or spatiotemporal optical vortices, TC and OAM per photon may scale or not in a process in which the OAM is conserved. We find the physical magnitude that scales with generality when the OAM, either longitudinal or transverse, or its intrinsic part, is conserved. This new rule allows for the wealth of phenomena observed in HHG that are unintelligible from the rigid LG rule.