Li Tao E, Nitzan Abraham, Subotnik Joseph E
Department of Chemistry, University of Pennsylvania, Philadelphia, Pennsylvania, 19104, USA.
School of Chemistry, Tel Aviv University, Tel Aviv, 69978, Israel.
Angew Chem Int Ed Engl. 2021 Jul 5;60(28):15533-15540. doi: 10.1002/anie.202103920. Epub 2021 Jun 1.
For a small fraction of hot CO molecules immersed in a liquid-phase CO thermal bath, classical cavity molecular dynamics simulations show that forming collective vibrational strong coupling (VSC) between the C=O asymmetric stretch of CO molecules and a cavity mode accelerates hot-molecule relaxation. This acceleration stems from the fact that polaritons can be transiently excited during the nonequilibrium process, which facilitates intermolecular vibrational energy transfer. The VSC effects on these rates 1) resonantly depend on the cavity mode detuning, 2) cooperatively depend on Rabi splitting, and 3) collectively scale with the number of hot molecules. For larger cavity volumes, the average VSC effect per molecule can remain meaningful for up to N≈10 molecules forming VSC. Moreover, the transiently excited lower polariton prefers to relax by transferring its energy to the tail of the molecular energy distribution rather than distributing it equally to all thermal molecules. As far as the parameter dependence is concerned, the vibrational relaxation data presented here appear analogous to VSC catalysis in Fabry-Pérot microcavities.
对于浸没在液相一氧化碳热浴中的一小部分热一氧化碳分子,经典腔分子动力学模拟表明,在一氧化碳分子的C=O不对称伸缩与腔模之间形成集体振动强耦合(VSC)会加速热分子弛豫。这种加速源于这样一个事实,即在非平衡过程中可以瞬态激发极化激元,这有利于分子间振动能量转移。VSC对这些速率的影响如下:1)共振地取决于腔模失谐;2)协同地取决于拉比分裂;3)总体上与热分子的数量成比例。对于更大的腔体积,对于多达N≈10个形成VSC的分子,每个分子的平均VSC效应仍可能有意义。此外,瞬态激发的下极化激元更倾向于通过将其能量转移到分子能量分布的尾部来弛豫,而不是将其能量平均分配给所有热分子。就参数依赖性而言,这里给出的数据表明振动弛豫类似于法布里 - 珀罗微腔中的VSC催化。
