我们测量了千赫兹范围内超导及非超导MgC1-xNi3样品从液氮温度至室温的微结构弛豫谱.对于超导样品,发现了两个内耗峰:P1(300K)和P2(125K).而对于非超导样品,P1峰位移到了250K,而P2峰几乎被完全抑制.变频实验发现随着测量频率升高,P2峰移向高温,计算所得激活能为0.13eV.我们认为P2峰可能与C原子在偏心位置的跳跃有关.进一步我们可以猜测C原子的这种行为与许多实验中观察到的超导样品在150K和50K正常态度越行为相对应.
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