Resonant inelastic x-ray scattering as a probe of optical scale excitations in strongly electron-correlated systems: quasi-localized view

TL;DR

This paper discusses the application of resonant inelastic x-ray scattering (RIXS) to study optical excitations in strongly correlated electron systems, highlighting its advantages, examples, and potential for probing ground state properties.

Contribution

It introduces the use of RIXS for analyzing optical excitations in correlated materials, emphasizing its unique capabilities and comparing experimental data with theoretical models.

Findings

RIXS can probe extended multiplet structures not accessible by other spectroscopies.

Spectral profiles are highly sensitive to chemical state and crystal-field strength.

The technique shows promise in revealing ground state characteristics such as J-mixing.

Abstract

An application of resonant inelastic x-ray scattering technique for studying of optical scale excitations in electron-correlated materials is discussed. Examples are given including data obtained for 3d transition metal, lanthanide, and actinide systems. In some cases, the data are compared with the results of crystal-field multiplet and Anderson impurity model calculations. Advantages of this technigue are pointed out, such as an ability to probe an extended multiplet structure of the ground state configuration, which is not fully accessible by other spectroscopies, an extreme sensitivity of spectral profiles to the chemical state of the element in question and to the crystal-field strength, and a great potential in probing the ground state character (for example, ground state J-mixing in rare-earths) due to the technique's elemental selectivity and strict selection rules. Issues are addressed, such as a possible deviations from the linear dispersion of inelastic scattering structures, corresponding to charge-transfer excitations, with varying excitation energies and an estimation of values for model parameters, involved in the description of charge-transfer processes