Belyanchikov Mikhail A, Savinov Maxim, Proschek Petr, Prokleška Jan, Zhukova Elena S, Thomas Victor G, Bedran Zakhar V, Kadlec Filip, Kamba Stanislav, Dressel Martin, Gorshunov Boris P
Laboratory of Terahertz Spectroscopy, Center for Photonics and 2D Materials, Moscow Institute of Physics and Technology, 141701, Dolgoprudny, Moscow Region, Russia.
Institute of Physics, Czech Academy of Sciences, 18200 Prague 8, Czech Republic.
Nano Lett. 2022 Apr 27;22(8):3380-3384. doi: 10.1021/acs.nanolett.2c00638. Epub 2022 Apr 7.
We have studied the radio frequency dielectric response of a system consisting of separate polar water molecules periodically arranged in nanocages formed by the crystal lattice of the gemstone beryl. Below = 20-30 K, quantum effects start to dominate the properties of the electric dipolar system as manifested by a crossover between the Curie-Weiss and the Barrett regimes in the temperature-dependent real dielectric permittivity ε'(). When analyzing in detail the temperature evolution of the reciprocal permittivity (ε') down to ≈ 0.3 K and comparing it with the data obtained for conventional quantum paraelectrics, like SrTiO, KTaO, we discovered clear signatures of a quantum-critical behavior of the interacting water molecular dipoles: Between = 6 and 14 K, the reciprocal permittivity follows a quadratic temperature dependence and displays a shallow minimum below 3 K. This is the first observation of "dielectric fingerprints" of quantum-critical phenomena in a paraelectric system of coupled electric dipoles.
我们研究了一个系统的射频介电响应,该系统由单独的极性水分子组成,这些水分子周期性地排列在由宝石绿柱石晶格形成的纳米笼中。在低于20 - 30 K时,量子效应开始主导电偶极子系统的性质,这表现为在与温度相关的实介电常数ε'(T)中居里 - 外斯和巴雷特 regime之间的转变。当详细分析倒数介电常数(ε')直至约0.3 K的温度演化,并将其与传统量子顺电体(如SrTiO₃、KTaO₃)获得的数据进行比较时,我们发现了相互作用的水分子偶极子量子临界行为的清晰特征:在6 K至14 K之间,倒数介电常数呈现二次方温度依赖性,并在3 K以下显示出一个浅最小值。这是在耦合电偶极子的顺电系统中首次观察到量子临界现象的“介电指纹”。
