Potisk Tilen, Svenšek Daniel, Brand Helmut R, Pleiner Harald, Lisjak Darja, Osterman Natan, Mertelj Alenka
Department of Physics, Faculty of Mathematics and Physics, University of Ljubljana, SI-1000 Ljubljana, Slovenia.
Theoretische Physik III, Universität Bayreuth, 95440 Bayreuth, Germany.
Phys Rev Lett. 2017 Sep 1;119(9):097802. doi: 10.1103/PhysRevLett.119.097802.
Hydrodynamics of complex fluids with multiple order parameters is governed by a set of dynamic equations with many material constants, of which only some are easily measurable. We present a unique example of a dynamic magneto-optic coupling in a ferromagnetic nematic liquid, in which long-range orientational order of liquid crystalline molecules is accompanied by long-range magnetic order of magnetic nanoplatelets. We investigate the dynamics of the magneto-optic response experimentally and theoretically and find out that it is significantly affected by the dissipative dynamic cross-coupling between the nematic and magnetic order parameters. The cross-coupling coefficient determined by fitting the experimental results with a macroscopic theory is of the same order of magnitude as the dissipative coefficient (rotational viscosity) that governs the reorientation of pure liquid crystals.
具有多个序参量的复杂流体的流体动力学由一组包含许多材料常数的动力学方程所支配,其中只有一些常数易于测量。我们展示了铁磁向列相液体中动态磁光耦合的一个独特例子,其中液晶分子的长程取向序伴随着磁性纳米片的长程磁序。我们通过实验和理论研究了磁光响应的动力学,发现它受到向列相和磁序参量之间耗散动态交叉耦合的显著影响。通过用宏观理论拟合实验结果确定的交叉耦合系数与控制纯液晶重新取向的耗散系数(旋转粘度)具有相同的数量级。