A phase-controlled spin wave was non-thermally generated in bismuth-doped rare-earth iron garnet by linearly polarized light pulses. We controlled the initial phase of the spin wave continuously within a range of 180 deg. by changing the polarization azimuth of the excitation light. The azimuth dependences of the initial phase and amplitude of the spin wave were attributed to a combination of the inverse Cotton-Mouton effect and photoinduced magnetic anisotropy. Temporally and spatially resolved spin wave propagation was observed with a CCD camera, and the waveform was in good agreement with calculations. A nonlinear effect of the spin excitation was observed for excitation fluences higher than 100 mJ/cm^2.
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机译:通过线性偏振光脉冲在掺杂铋掺杂的稀土铁石榴中不热产生相控制的旋转波。我们在180°的范围内连续控制旋转波的初始相位。通过改变激发光的偏振方位角。旋转波的初始相和幅度的方位角依赖性归因于逆棉 - Mouton效应和光致磁各向异性的组合。用CCD摄像机观察时间和空间分辨的旋转波传播,波形与计算良好。观察到旋转激发的非线性效果,用于高于100mJ / cm ^ 2的激发型兴奋。
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