Trinter Florian, Inhester Ludger, Püttner Ralph, Malerz Sebastian, Thürmer Stephan, Marchenko Tatiana, Piancastelli Maria Novella, Simon Marc, Winter Bernd, Hergenhahn Uwe
Fritz-Haber-Institut der Max-Planck-Gesellschaft, Faradayweg 4-6, 14195 Berlin, Germany.
Institut für Kernphysik, Goethe-Universität Frankfurt, Max-von-Laue-Str. 1, 60438 Frankfurt am Main, Germany.
J Chem Phys. 2024 May 21;160(19). doi: 10.1063/5.0205994.
We present a combined experimental and theoretical investigation of the radiationless decay spectrum of an O 1s double core hole in liquid water. Our experiments were carried out using liquid-jet electron spectroscopy from cylindrical microjets of normal and deuterated water. The signal of the double-core-hole spectral fingerprints (hypersatellites) of liquid water is clearly identified, with an intensity ratio to Auger decay of singly charged O 1s of 0.0014(5). We observe a significant isotope effect between liquid H2O and D2O. For theoretical modeling, the Auger electron spectrum of the central water molecule in a water pentamer was calculated using an electronic-structure toolkit combined with molecular-dynamics simulations to capture the influence of molecular rearrangement within the ultrashort lifetime of the double core hole. We obtained the static and dynamic Auger spectra for H2O, (H2O)5, D2O, and (D2O)5, instantaneous Auger spectra at selected times after core-level ionization, and the symmetrized oxygen-hydrogen distance as a function of time after double core ionization for all four prototypical systems. We consider this observation of liquid-water double core holes as a new tool to study ultrafast nuclear dynamics.
我们对液态水中O 1s双芯孔的无辐射衰变光谱进行了实验与理论相结合的研究。我们的实验是利用普通水和重水的圆柱形微射流的液体喷射电子能谱进行的。液态水的双芯孔光谱指纹(超卫星峰)信号被清晰识别,其与单电荷O 1s俄歇衰变的强度比为0.0014(5)。我们观察到液态H₂O和D₂O之间存在显著的同位素效应。对于理论建模,使用电子结构工具包结合分子动力学模拟来计算水五聚体中中心水分子的俄歇电子能谱,以捕捉双芯孔超短寿命内分子重排的影响。我们获得了H₂O、(H₂O)₅、D₂O和(D₂O)₅的静态和动态俄歇能谱、芯能级电离后选定时间的瞬态俄歇能谱,以及所有四个典型体系双芯电离后作为时间函数的对称氧 - 氢距离。我们认为对液态水双芯孔的这一观测是研究超快核动力学的一种新工具。
