热输运对低频顺磁自旋-晶格弛豫实验的影响

Physica Pub Date : 1974-10-01 DOI:10.1016/0031-8914(74)90278-X

J. Flokstra, G.J. Gerritsma, G.A. Hartemink, L.C. Van Der Marel

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引用次数: 14

摘要

在放置在液氦中的顺磁晶体的低频弛豫实验中，经常发现色散和吸收曲线与卡西米尔和杜·普莱尔的热力学理论大相径庭。对于与吸收曲线最大值有关的弛豫时间τabs， τabs αT-α与1 <呈温度依赖性;α& lt;6经常被发现，有时伴随着氦转变温度Tλ的跳跃。我们从包含晶格和氦浴的热传导以及晶体到浴的热阻的模型出发，计算了色散和吸收曲线，发现假设自旋-晶格弛豫的直接过程，τabs(T)(与计算的吸收曲线的最大值相关)可以大致如上所述，在Tγ处有一个跳跃。

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On the influence of heat transport on low- frequency paramagnetic spin—Lattice relaxation experiments

In low-frequency relaxation experiments on paramagnetic crystals, placed in liquid helium, often dispersion- and absorption curves are found, strongly deviating from those following from the thermodynamic theory of Casimir and Du Pré. For the relaxation time τ_abs, related to the maximum in the absorption curve, a temperature dependence $τ_{abs}^{α} T^{-α}$ with 1 < α < 6 has been found frequently, accompanied sometimes with a jump at the helium-transition temperature T_λ. We computed, starting from a model including the heat conduction of lattice and helium bath and a heat resistance from crystal to bath, dispersion- and absorption curves and found that, assuming the direct process for the spin—lattice relaxation, τ_abs(T) (related to the maximum of the calculated absorption curve) can be described roughly as mentioned above with a jump at T_γ.

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Physica

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