Spin-resolved charge density and wavefunction refinements using MOLLYNX: a review

Acta Crystallographica Section B Structural Science, Crystal Engineering and Materials Pub Date : 2021-09-25 DOI:10.1107/s2052520621008222

M. Souhassou, Iurii Kiblin, M. Deutsch, Ariste Bolivar Voufack, C. Lecomte, N. Claiser

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Abstract

MOLLYNX is a new crystallographic tool developed to access a more precise description of the spin-dependent electron density of magnetic crystals, taking advantage of the richness of experimental information from high-resolution X-ray diffraction (XRD), unpolarized neutron (UND) and polarized neutron diffraction (PND). This new program is based either on the well known Hansen–Coppens multipolar model (MOLLYNX-mult) or on a new expansion over a set of atomic orbitals (MOLLYNX-orb). The main difference between the two models is the basis of the expansion: in MOLLYNX-mult the expansion is over atom centered real spherical harmonics, in MOLLYNX-orb the expansion is over a set of atomic orbitals with which mono and bicentric contributions are calculated. This new approach of MOLLYNX-orb can also be applied to nonmagnetic crystals. This paper summarizes the theoretical ground of two models and describes the first applications to organic, organometallic and inorganic magnetic materials

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用MOLLYNX改进自旋分辨电荷密度和波函数:综述

MOLLYNX是一种新的晶体学工具，利用高分辨率x射线衍射(XRD)、非极化中子衍射(UND)和极化中子衍射(PND)提供的丰富实验信息，可以更精确地描述磁性晶体的自旋依赖电子密度。这个新程序要么是基于著名的Hansen-Coppens多极模型(MOLLYNX-mult)，要么是基于一组原子轨道的新扩展(MOLLYNX-orb)。两种模型的主要区别在于膨胀的基础:在MOLLYNX-mult中，膨胀是在以原子为中心的实球谐波上进行的，而在MOLLYNX-orb中，膨胀是在一组原子轨道上进行的，其中单中心和双中心的贡献是计算的。MOLLYNX-orb的这种新方法也可以应用于非磁性晶体。本文总结了两种模型的理论基础，并介绍了它们在有机、有机金属和无机磁性材料中的首次应用

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Acta Crystallographica Section B Structural Science, Crystal Engineering and Materials

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