利用测量的费什巴赫共振态改进势能面。

Improving potential energy surfaces using measured Feshbach resonance states.

作者信息

Horn Karl P, Vazquez-Salazar Luis Itza, Koch Christiane P, Meuwly Markus

机构信息

Dahlem Center for Complex Quantum Systems and Fachbereich Physik, Freie Universität Berlin, Arnimallee 14, D-14195 Berlin, Germany.

Department of Chemistry, University of Basel, Klingelbergstrasse 80, CH-4056 Basel, Switzerland.

出版信息

Sci Adv. 2024 Mar;10(9):eadi6462. doi: 10.1126/sciadv.adi6462. Epub 2024 Mar 1.

DOI:10.1126/sciadv.adi6462

PMID:38427733

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10906917/

Abstract

The structure and dynamics of a molecular system is governed by its potential energy surface (PES), representing the total energy as a function of the nuclear coordinates. Obtaining accurate potential energy surfaces is limited by the exponential scaling of Hilbert space, restricting quantitative predictions of experimental observables from first principles to small molecules with just a few electrons. Here, we present an explicitly physics-informed approach for improving and assessing the quality of families of PESs by modifying them through linear coordinate transformations based on experimental data. We demonstrate this "morphing" of the PES for the He - H complex using recent comprehensive Feshbach resonance (FR) measurements for reference PESs at three different levels of quantum chemistry. In all cases, the positions and intensities of peaks in the energy distributions are improved. We find these observables to be mainly sensitive to the long-range part of the PES.

摘要

分子系统的结构和动力学由其势能面（PES）决定，势能面将总能量表示为核坐标的函数。获取精确的势能面受到希尔伯特空间指数缩放的限制，这使得从第一性原理对实验可观测量进行定量预测仅限于只有几个电子的小分子。在此，我们提出一种明确基于物理知识的方法，通过基于实验数据的线性坐标变换来修改势能面族，从而改进和评估其质量。我们利用最近在三个不同量子化学水平下对参考势能面进行的全面费什巴赫共振（FR）测量，展示了He - H复合物势能面的这种“变形”。在所有情况下，能量分布中峰的位置和强度都得到了改善。我们发现这些可观测量主要对势能面的长程部分敏感。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/14de/10906917/2c502bac34db/sciadv.adi6462-f1.jpg

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利用测量的费什巴赫共振态改进势能面。

Improving potential energy surfaces using measured Feshbach resonance states.

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