Brorsen Kurt R, Pak Michael V, Hammes-Schiffer Sharon
Department of Chemistry, 600 South Mathews Avenue, University of Illinois at Urbana-Champaign , Urbana, Illinois 61801, United States.
J Phys Chem A. 2017 Jan 19;121(2):515-522. doi: 10.1021/acs.jpca.6b10124. Epub 2017 Jan 5.
Although the binding of a positron to a neutral atom has not been directly observed experimentally, high-level theoretical methods have predicted that a positron will bind to a neutral atom. In the present study, the binding energies of a positron to lithium, sodium, beryllium, and magnesium, as well as the electron-positron annihilation rates for these systems, are calculated using the reduced explicitly correlated Hartree-Fock (RXCHF) method within the nuclear-electronic orbital (NEO) framework. Due to the lack of explicit electron-positron correlation, NEO Hartree-Fock and full configuration interaction calculations with reasonable electronic and positronic basis sets do not predict positron binding to any of these atoms. In contrast, the RXCHF calculations predict positron binding energies and electron-positron annihilation rates in qualitative agreement with previous highly accurate but computationally expensive stochastic variational method calculations. These results illustrate that the RXCHF method can successfully describe the binding of a positron to a neutral species with no dipole moment. Moreover, the RXCHF method will be computationally tractable for calculating positron binding to molecular systems. The RXCHF approach offers a balance of accuracy and computational tractability for studying these types of positronic systems.
尽管正电子与中性原子的结合尚未通过实验直接观测到,但高级理论方法已预测正电子会与中性原子结合。在本研究中,使用核电子轨道(NEO)框架内的约化显式相关哈特里 - 福克(RXCHF)方法,计算了正电子与锂、钠、铍和镁的结合能,以及这些体系的电子 - 正电子湮灭率。由于缺乏显式的电子 - 正电子相关性,使用合理的电子和正电子基组进行的NEO哈特里 - 福克和全组态相互作用计算并未预测到正电子与这些原子中的任何一个结合。相比之下,RXCHF计算预测的正电子结合能和电子 - 正电子湮灭率与先前高精度但计算成本高昂的随机变分法计算结果在定性上一致。这些结果表明,RXCHF方法能够成功描述正电子与无偶极矩的中性物种的结合。此外,RXCHF方法在计算正电子与分子体系的结合时计算上是可行的。RXCHF方法为研究这类正电子体系提供了准确性和计算可行性的平衡。
