Polarization anomaly in high harmonics in the crossover region between perturbative and extreme nonlinearity in GaAs

Sekiguchi, Fumiya, Yumoto, Go, Hirori, Hideki, Kanemitsu, Yoshihiko

doi:10.1103/physrevb.106.l241201

We investigate the characteristics of high harmonics (HHs) unique to the nonperturbative nonlinear regime. We show that the polarization state of HHs generated from GaAs changes drastically across the crossover from the weak-field perturbative regime to the strong-field extreme nonlinear regime, while the linearly polarized infrared excitation field (Eexc) is fixed to a particular crystal direction. The dependence on the Eexc-field strength reveals that multiple emission processes with different nonlinear orders and temporal phases contribute to each order HH, and the interference among them plays a pivotal role. This interference manifests itself as a unique phenomenon: a large HH ellipticity emerges in the course of crossover, despite the fact that GaAs hosts no magnetization or linear birefringence. These results demonstrate that not only the material's symmetry but also the ultrafast nonlinear dynamics largely affects the HH polarization, and hence, HH polarization and its Eexc-field dependence provide a useful experimental tool to probe ultrafast coherent dynamics in light-driven solid-state materials.

Polarization anomaly in high harmonics in the crossover region between perturbative and extreme nonlinearity in GaAs

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