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Quantum-Classical Reentrant Relaxation Crossover in Dy2Ti2O7 Spin Ice

Snyder, J.
Ueland, B. G.
Slusky, Joanna
Karunadasa, H.
Cava, R. J.
Mizel, Ari
Schiffer, P.
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Abstract
We have studied spin relaxation in the spin ice compound Dy2Ti2O7 through measurements of the ac magnetic susceptibility. While the characteristic spin-relaxation time (τ) is thermally activated at high temperatures, it becomes almost temperature independent below Tcross∼13  K. This behavior, combined with nonmonotonic magnetic field dependence of τ, indicates that quantum tunneling dominates the relaxational process below that temperature. As the low-entropy spin ice state develops below Tice∼4  K, τ increases sharply with decreasing temperature, suggesting the emergence of a collective degree of freedom for which thermal relaxation processes again become important as the spins become strongly correlated.
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2003-09-05
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American Physical Society
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Snyder, J., Ueland, B. G., Slusky, J. S., Karunadasa, H., Cava, R. J., Mizel, A., & Schiffer, P. (2003). Quantum-Classical Reentrant Relaxation Crossover in D y 2 T i 2 O 7 Spin Ice. Physical review letters, 91(10), 107201.
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