Ordered phases in spin-Peierls systems
G\"otz S. Uhrig
TL;DR
This paper explores the ordered phases in spin-Peierls systems, focusing on theoretical approaches, soliton structures, and experimental insights from CuGeO3, to deepen understanding of their microscopic behavior.
Contribution
It provides a detailed analysis of ordered phases in spin-Peierls systems, integrating adiabatic and antiadiabatic approaches with experimental data on CuGeO3.
Findings
Identification of dimerised and incommensurably modulated phases
Comparison of adiabatic and antiadiabatic theoretical models
Experimental validation using CuGeO3 data
Abstract
The microscopic description of spin-Peierls substances is discussed. Particular attention is paid to the ordered (dimerised and incommensurably modulated) phases. Important points are the adiabatic and the antiadiabatic approach, generic soliton forms, elastic and magnetic interchain couplings. The wealth and the accuracy of experimental information collected for the first inorganic spin-Peierls substance CuGeO_3 motivates this work.
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