Recent experiments have demonstrated highly enantioselective population transfer among rotational states using microwave fields with non-coplanar polarizations, a milestone in our ability to control chiral molecules. Extending this ability to the optical domain would open the door to all-optical enantioselective photochemistry, the next milestone in this direction. Here we show that the spatial variation of the field presents a major challenge along this route, limiting the interaction region to a thin layer with a thickness of the order of a wavelength. We provide a solution to this restriction by carefully designing the quantum pathways leading to the excited state. Our simulations reveal that the proposed scheme can result in differences...
We present a comprehensive study of enantioselective orientation of chiral molecules excited by a pa...
Over the last few years, microwave three-wave mixing (M3WM) experiments have emerged as a sensitive ...
The driven quantum asymmetric top is an important paradigm in molecular physics with applications ra...
The development of efficient techniques to distinguish mirror images of chiral molecules (enantiomer...
Chiral molecules ionized by circularly polarized fields produce a photoelectron current orthogonal t...
Achiral molecules can be made temporarily chiral by excitation with electric fields, in the sense th...
We here report on a quantitative study of Enantiomer-Specific State Transfer (ESST), performed in a ...
The enantiomers of a racemic photoresponsive material represent two distinct states that can be modu...
We prove complete controllability for rotational states of an asymmetric top molecule belonging to d...
Enantiodetection is an important and challenging task across natural science. Nowadays, some chiropt...
Controlling the polarization state of electromagnetic radiation enables the investigation of fundame...
Synthetic chiral light enables ultrafast and highly efficient imaging of molecular chirality. Unlike...
Enantiodetection of chiral molecules is important to pharmaceutical drug production, chemical reacti...
Circularly polarized light (CPL) exhibits an enantioselective interaction with chiral molecules, pro...
Over the last years, microwave three-wave mixing (M3WM) experiments have been shown to provide a sen...
We present a comprehensive study of enantioselective orientation of chiral molecules excited by a pa...
Over the last few years, microwave three-wave mixing (M3WM) experiments have emerged as a sensitive ...
The driven quantum asymmetric top is an important paradigm in molecular physics with applications ra...
The development of efficient techniques to distinguish mirror images of chiral molecules (enantiomer...
Chiral molecules ionized by circularly polarized fields produce a photoelectron current orthogonal t...
Achiral molecules can be made temporarily chiral by excitation with electric fields, in the sense th...
We here report on a quantitative study of Enantiomer-Specific State Transfer (ESST), performed in a ...
The enantiomers of a racemic photoresponsive material represent two distinct states that can be modu...
We prove complete controllability for rotational states of an asymmetric top molecule belonging to d...
Enantiodetection is an important and challenging task across natural science. Nowadays, some chiropt...
Controlling the polarization state of electromagnetic radiation enables the investigation of fundame...
Synthetic chiral light enables ultrafast and highly efficient imaging of molecular chirality. Unlike...
Enantiodetection of chiral molecules is important to pharmaceutical drug production, chemical reacti...
Circularly polarized light (CPL) exhibits an enantioselective interaction with chiral molecules, pro...
Over the last years, microwave three-wave mixing (M3WM) experiments have been shown to provide a sen...
We present a comprehensive study of enantioselective orientation of chiral molecules excited by a pa...
Over the last few years, microwave three-wave mixing (M3WM) experiments have emerged as a sensitive ...
The driven quantum asymmetric top is an important paradigm in molecular physics with applications ra...
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