Abstract
The recent discovery that linearly polarized light with a helical wavefront can exhibit vortex dichroism (also referred to as helical dichroism) has opened up new horizons in chiroptical spectroscopy with structured chiral light. Recent experiments have now pushed optical activity with vortex beams into the regime of nonlinear optics. Here the theory of two-photon absorption (TPA) of focused optical vortices by chiral molecules: nonlinear vortex dichroism (NVD) is presented. It is discovered that highly distinct features arise in the case of TPA with focused vortex beams, including the ability to probe chiral molecular structure not accessible to current methods and that the differential rate of TPA is significantly influenced by the orientation of the state of linear polarization. This study provides strong evidence that combining nonlinear optical activity with structured light provides new and improved routes to studying molecular chirality.
Original language | English |
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Article number | 2402151 |
Journal | Advanced Optical Materials |
Early online date | 15 Dec 2024 |
DOIs | |
Publication status | E-pub ahead of print - 15 Dec 2024 |
Keywords
- chirality
- nonlinear optics
- optical activity
- optical vortices
- structured light