Experimental study of MnCl3(C12H8N2) - an S = 2 Heisenberg   antiferromagnetic chain

E. Cizmar; J.-H. Park; S. J. Gamble; B. H. Ward; D. R. Talham; J. van; Tol; L.-C. Brunel; M. Orendac; A. Feher; J. Sebek; M. W. Meisel

arXiv:cond-mat/0304644·cond-mat.soft·June 24, 2015

Experimental study of MnCl3(C12H8N2) - an S = 2 Heisenberg antiferromagnetic chain

E. Cizmar, J.-H. Park, S. J. Gamble, B. H. Ward, D. R. Talham, J. van, Tol, L.-C. Brunel, M. Orendac, A. Feher, J. Sebek, M. W. Meisel

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TL;DR

This study investigates the thermodynamic and magnetic properties of MnCl3(C12H8N2), an S=2 antiferromagnetic chain, revealing its long-range ordering and the influence of chain length on magnetic correlations.

Contribution

It provides experimental data on the magnetic behavior of MnCl3(C12H8N2) down to 2 K, highlighting the role of chain length in magnetic properties.

Findings

01

Long-range magnetic order at 23 K

02

Chain length affects magnetic correlation

03

Material exhibits canted antiferromagnetic state

Abstract

The thermodynamic and magnetic properties of MnCl3(C12H8N2), have been studied down to 2 K. The material is an S = 2 antiferromagnetic linear chain that undergoes long-range ordering to a canted antiferromagnetic state at 23 K. The comparison of magnetic data from polycrystalline samples with the results of specific heat measurements using a pressed pellet of powder reveals the importance of the length of the chains in the sample in relation to the magnetic correlation length.

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