Abstract

Proton magnetic resonance experiments have been performed in a single crystal of azurite, Cu 3(CO 3) 2(OH) 2, in the liquid hydrogen and liquid helium temperature ranges for different field strengths and orientations. Two zero field resonance lines exist in the antiferromagnetic state. An antiferromagnetic electronic spin arrangement is proposed to explain the resonance diagrams. No threshold field has been found for fields up to 9000 Oe. The magnetization in the antiferromagnetic state was measured as a function of temperature.

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