Physical Review X (Sep 2021)

Enantiomer Superpositions from Matter-Wave Interference of Chiral Molecules

  • Benjamin A. Stickler,
  • Mira Diekmann,
  • Robert Berger,
  • Daqing Wang

DOI
https://doi.org/10.1103/PhysRevX.11.031056
Journal volume & issue
Vol. 11, no. 3
p. 031056

Abstract

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Molecular matter-wave interferometry enables novel strategies for manipulating the internal mechanical motion of complex molecules. Here, we show how chiral molecules can be prepared in a quantum superposition of two enantiomers by far-field matter-wave diffraction and how the resulting tunneling dynamics can be observed. We determine the impact of rovibrational phase averaging and propose a setup for sensing enantiomer-dependent forces, parity-violating weak interactions, and environment-induced superselection of handedness, as suggested to resolve Hund’s paradox. Using ab initio tunneling calculations, we identify [4]-helicene derivatives as promising candidates to implement the proposal with state-of-the-art techniques. This work opens the door for quantum sensing with chiral molecules.