Recently we have analyzed light transmission and spectral selectivity by optical channels in Müller cells and other transparent cells, proposing a model of their structure, formed by specialized intermediate filaments [1], [2]. Our model represents each optical channel by an axially symmetric tube with conductive walls. Presently, we analyze the planar polarization selectivity in long nanostructures, using the previously developed approach extended to structures of the elliptic cross-section. We find that the output light polarization degree depends on the a/b ratio, with a and b the semiaxes of the ellipse. Experimental tests used a Cr nano-strip device to evaluate the transmitted light polarization. The model adapted to the experimental geometry provided an accurate fit of the experimental results.

最近，我们已经通过Müller池和其他透明池中的光通道分析了光的透射和光谱选择性，提出了由特殊的中间丝[1]，[2]形成的结构模型。我们的模型通过带有导电壁的轴对称管表示每个光通道。目前，我们使用先前开发的扩展到椭圆形截面结构的方法来分析长纳米结构中的平面极化选择性。我们发现输出光的偏振度取决于a / b比，其中a和b椭圆的半轴。实验测试使用Cr纳米带器件评估透射光的偏振。适应实验几何的模型提供了对实验结果的精确拟合。