Zhou Jiami, Luo Zijie, Yang Jiayue, Chang Yao, Zhang Zhiguo, Yu Yong, Li Qinming, Cheng Gongkui, Chen Zhichao, He Zhigang, Che Li, Yu Shengrui, Wu Guorong, Yuan Kaijun, Yang Xueming
Hangzhou Institute of Advanced Studies, Zhejiang Normal University, 1108 Gengwen Road, Hangzhou, Zhejiang 311231, China.
State Key Laboratory of Molecular Reaction Dynamics, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Dalian, Liaoning 116023, China.
Phys Chem Chem Phys. 2020 Mar 18;22(11):6260-6265. doi: 10.1039/c9cp06919d.
State-to-state photodissociation of carbon dioxide (CO2) via the 3p1Πu Rydberg state was investigated by the time-sliced velocity map ion imaging technique (TSVMI) using a tunable vacuum ultraviolet free electron laser (VUV FEL) source. Raw images of the O(1S) products resulting from the O(1S) + CO(X1Σ+) channel were acquired at the photolysis wavelengths between 107.37 and 108.84 nm. From the vibrational resolved O(1S) images, the product total kinetic energy releases and the vibrational state distributions of the CO(X1Σ+) co-products were obtained, respectively. It is found that vibrationally excited CO co-products populate at as high as v = 6 or 7 while peaking at v = 1 and v = 4, and most of the individual vibrational peaks present a bimodal rotational structure. Furthermore, the angular distributions at all studied photolysis wavelengths have also been determined. The associated vibrational-state specific anisotropy parameters (β) exhibit a photolysis wavelength-dependent feature, in which the β-values observed at 108.01 nm and 108.27 nm are more positive than those at 107.37 nm and 107.52 nm, while the β-values have almost isotropic behaviour at 108.84 nm. These experimental results indicate that the initially prepared CO2 molecules around 108 nm should decay to the 41A' state via non-adiabatic coupling, and dissociate in the 41A' state to produce O(1S) + CO(X1Σ+) products with different dissociation time scales.
利用可调谐真空紫外自由电子激光(VUV FEL)源,通过时间切片速度映射离子成像技术(TSVMI)研究了二氧化碳(CO₂)经由3p¹Πu里德堡态的态间光解离。在107.37至108.84 nm的光解波长下,获取了由O(¹S) + CO(X¹Σ⁺)通道产生的O(¹S)产物的原始图像。从振动分辨的O(¹S)图像中,分别获得了产物的总动能释放以及CO(X¹Σ⁺)共产物的振动态分布。研究发现,振动激发的CO共产物在高达v = 6或7时出现,同时在v = 1和v = 4时达到峰值,并且大多数单个振动峰呈现双峰转动结构。此外,还确定了所有研究光解波长下的角分布。相关的振动态特定各向异性参数(β)呈现出光解波长依赖性特征,其中在108.01 nm和108.27 nm处观察到的β值比在107.37 nm和107.52 nm处更正值,而在108.84 nm处β值几乎具有各向同性行为。这些实验结果表明,在108 nm附近最初制备的CO₂分子应通过非绝热耦合衰变为⁴¹A'态,并在⁴¹A'态解离以产生具有不同解离时间尺度的O(¹S) + CO(X¹Σ⁺)产物。
