Incoherent spatial solitons in nematic liquid crystals

Proceedings of 2001 3rd International Conference on Transparent Optical Networks (IEEE Cat. No.01EX488) Pub Date : 2005-05-22 DOI:10.1109/ICTON.2001.934740

M. Peccianti, A. DeLuca, G. Assanto

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Abstract

Spatial solitons are generated in nematic liquid crystals taking advantage of their reorientational response with increase in refractive index. Such response is saturable and can therefore prevent filamentation even in the fully three-dimensional case. To sustain a soliton, a linearly polarized optical field exerts a torque on the (pre-aligned) induced molecular dipoles of a positive uniaxial liquid crystal, orienting them towards the beam polarization vector. This is obtained at low powers by introducing a pre-tilt to the molecules in a planarly-anchored nematic, as to form an angle close to /spl pi//4 between them and the optical field. Since the liquid crystal has a noninstantaneous response, it averages out rapid intensity variations and allows to employ light with reduced spatio-temporal coherence. When properly polarized, the spatially incoherent beam forms an "incoherent" spatial soliton, which can also guide a weaker copolarized and collinear signal of different wavelength. Coherent/incoherent solitons and their use in signal rerouting and multiplexing are discussed.

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向列液晶中的非相干空间孤子

空间孤子是在向列液晶中产生的，利用了它们随折射率增加的重定向响应。这种反应是饱和的，因此即使在完全三维的情况下也能防止成丝。为了维持孤子，线偏振光场对正单轴液晶的(预先对准的)诱导分子偶极子施加扭矩，使它们朝向光束偏振矢量。这是在低功率下通过在平面锚定的向列中引入预倾斜分子来获得的，以便在它们与光场之间形成接近/spl pi//4的角度。由于液晶具有非瞬时响应，它平均了快速的强度变化，并允许使用具有降低时空相干性的光。当适当极化时，空间非相干光束形成“非相干”空间孤子，也可以引导不同波长的较弱的共偏振和共线信号。讨论了相干/非相干孤子及其在信号重路由和多路复用中的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of 2001 3rd International Conference on Transparent Optical Networks (IEEE Cat. No.01EX488)

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