Project B2
Enantiomer differentiation, separation, and precision studies using tailored microwave fields
In project B2, we use tailored, resonant microwave fields for addressing various questions around molecular chirality. Our approach is a coherent, non-linear spectroscopy technique that allows us to identify, quantify, manipulate, and control the chirality of molecules in the gas phase. Enantiomer-selective population transfer between states can be achieved. It is particularly interesting to apply this to flexible molecules exhibiting chiral tunneling and molecules containing high-Z elements, which are predicted to show a comparatively large parity violation effect. The high control of chiral molecules that we aim for will then be exploited for further experiments, such as precision spectroscopy.