Electron spin resonance study of anisotropic interactions in a   two-dimensional spin gap magnet PHCC

V. N. Glazkov; T. S. Yankova; J. Sichelschmidt; D. H\"uvonen; A.; Zheludev

arXiv:1111.3223·cond-mat.str-el·February 23, 2012

Electron spin resonance study of anisotropic interactions in a two-dimensional spin gap magnet PHCC

V. N. Glazkov, T. S. Yankova, J. Sichelschmidt, D. H\"uvonen, A., Zheludev

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TL;DR

This study uses electron spin resonance to analyze the anisotropic interactions and excitation spectrum of the two-dimensional spin-gap magnet PHCC, providing detailed insights into its magnetic properties.

Contribution

It offers precise measurements of anisotropy parameters and axes orientations, advancing understanding of PHCC's magnetic behavior near critical fields.

Findings

01

Determined anisotropy parameters and axes orientations.

02

Analyzed sublevel splittings and g-factor anisotropy.

03

Characterized excitation spectrum of PHCC.

Abstract

Fine details of the excitation spectrum of the two-dimensional spin-gap magnet PHCC are revealed by electron spin resonance investigations. The values of anisotropy parameters and the orientations of the anisotropy axes are determined by accurate measurements of the angular, frequency-field and temperature dependences of the resonance absorption. The properties of a spin-gap magnet in the vicinity of critical field are discussed in terms of sublevel splittings and g-factor anisotropy.

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