Stopping molecular rotation using coherent ultra-low-energy magnetic manipulations
NATURE COMMUNICATIONS(2022)
摘要
Rotational motion lies at the heart of intermolecular, molecule-surface chemistry and cold molecule science, motivating the development of methods to excite and de-excite rotations. Existing schemes involve perturbing the molecules with photons or electrons which supply or remove energy comparable to the rotational level spacing. Here, we study the possibility of de-exciting the molecular rotation of a D 2 molecule, from J = 2 to the non-rotating J = 0 state, without using an energy-matched perturbation. We show that passing the beam through a 1 m long magnetic field, which splits the rotational projection states by only 10 −12 eV, can change the probability that a molecule-surface collision will stop a molecule from rotating and lose rotational energy which is 9 orders larger than that of the magnetic manipulation. Calculations confirm that different rotational orientations have different de-excitation probabilities but underestimate rotational flips (∆ m J 0), highlighting the importance of the results as a sensitive benchmark for further developing theoretical models of molecule-surface interactions.
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关键词
molecular rotation,magnetic manipulations,ultra-low-energy
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