Abstract
THz-based technologies and research applications have seen a rapid increment in recent period together with the development of novel radiation sources based both on relativistic electrons and laser techniques. In this framework, laser-induced plasma filament plays an important role in generating intense and broadband THz radiation. Although many attentions have been paid to THz emission from two-color plasma filaments, one-color plasma emission has been scarcely investigated. In particular, the polarization state of one-color THz emission is still controversial due to the limitations of the existing THz detection techniques, which are incapable of simultaneously detecting elliptically and radially polarized THz radiation. In this manuscript, we develop a novel detection method and unambiguously demonstrate for the first time that one-color laser-induced plasma filament simultaneously emits elliptically and radially polarized THz radiation. These polarization states suggest that the generation mechanism results from electric quadrupole, showing a new route for producing more complex polarization states and THz vortex beams.
Highlights
Laser filamentation [1] has aroused a great interest, becoming a field of intense research activity, thanks to its multidisciplinary applications [2,3,4,5,6]
We develop a novel detection method and unambiguously demonstrate for the first time that one-color laser-induced plasma filament simultaneously emits elliptically and radially polarized THz radiation
The THz generated from the filament is collimated by an off-axis parabolic mirror (PM) with reflected focal length equal to 6 inches
Summary
Sen Mou1,∗ , Annalisa D'Arco , Luca Tomarchio, Marta Di Fabrizio , Alessandro Curcio, Stefano Lupi and Massimo Petrarca. ∗ Author to whom any correspondence should be addressed
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