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Quantum interference between spin-orbit split partial waves in the F + HD → HF + D reaction.

Wentao ChenRansheng WangDao-Fu YuanHailin ZhaoChang LuoYuxin TanShihao LiDonghui ZhangXingan WangZhigang SunXueming Yang
Published in: Science (New York, N.Y.) (2021)
The effect of electron spin-orbit interactions on chemical reaction dynamics has been a topic of much research interest. Here we report a combined experimental and theoretical study on the effect of electron spin and orbital angular momentum in the F + HD → HF + D reaction. Using a high-resolution imaging technique, we observed a peculiar horseshoe-shaped pattern in the product rotational-state-resolved differential cross sections around the forward-scattering direction. The unusual dynamics pattern could only be explained properly by highly accurate quantum dynamics theory when full spin-orbit characteristics were considered. Theoretical analysis revealed that the horseshoe pattern was largely the result of quantum interference between spin-orbit split-partial-wave resonances with positive and negative parities, providing a distinctive example of how spin-orbit interaction can effectively influence reaction dynamics.
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