Magnetic light scattering in low-dimensional quantum spin systems

TL;DR

This paper reviews how magnetic light scattering techniques have advanced understanding of low-dimensional quantum spin systems, including spin-Peierls, spin-dimer, frustrated, and ladder materials, by comparing with other spectroscopic and thermodynamic methods.

Contribution

It provides a comprehensive overview of magnetic light scattering applications in low-dimensional quantum spin systems, highlighting key insights and comparing with other experimental approaches.

Findings

Magnetic light scattering reveals detailed spin dynamics.

It complements other spectroscopic methods effectively.

The review identifies outstanding challenges and future directions.

Abstract

An overview of one- and two-dimensional quantum spin systems based on transition-metal oxides and halides of current interest is given, such as spin-Peierls, spin-dimer, geometrically frustrated and ladder systems. The most significant and outstanding contributions of magnetic light scattering to the understanding of these materials are discussed and compared to results of other spectroscopies and thermodynamic measurements.