Magnetic properties of the frustrated AFM spinel ZnCr2O4 and the spin-glass Zn1-xCdxCr2O4 (x=0.05,0.10)
Abstract
The T-dependence (2- 400 K) of the electron paramagnetic resonance (EPR), magnetic susceptibility, (T), and specific heat, Cv(T), of the normal antiferromagnetic (AFM) spinel ZnCr2O4 and the spin-glass (SG) Zn1-xCdxCr2O4 (x=0.05,0.10) is reported. These systems behave as a strongly frustrated AFM and SG with % TN ≈ TG≈ 12 K and -400 K CW -500 K. At high-T the EPR intensity follows the (T) and the g-value is T-independent. The linewidth broadens as the temperature is lowered, suggesting the existence of short range AFM correlations in the paramagnetic phase. For ZnCr2O4 the EPR intensity and (T) decreases below 90 K and 50 K, respectively. These results are discussed in terms of nearest-neighbor Cr3+ (S =3/2%) spin-coupled pairs with an exchange coupling of | J/k| ≈ 50 K. The appearance of small resonance modes for T 17 K, the observation of a sharp drop in (T) and a strong peak in Cv(T) at TN=12 K confirms, as previously reported, the existence of long range AFM correlations in the low-T phase. A comparison with recent neutron diffraction experiments that found a near dispersionless excitation at 4.5 meV for T TN and a continuous gapless spectrum for T TN, is also given.
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