E. Werner, J. Ruske, B. Zeitner, W. Biehlig, A. Tunnermann
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引用次数: 0
摘要
只提供摘要形式。彩色图像生成是调幅器在可见光谱范围内的重要应用。一个合适的候选者是KTP的集成光学马赫-曾德尔干涉仪[Ruske et al. 1998]。然而。由于其单模波导的横截面非常小,它只能用于低功率应用。为了克服这一限制,我们实现了一种新的调制装置,使用具有高光学损伤阈值的大截面波导,即所谓的不对称衍射调制器(ADAM) [Pertsch和Wachter 1999]。该器件基于在输入和输出波导之间不对称嵌入的衍射区。在关闭状态下,由于反射边界的存在,光发生了不对称的衍射。在衍射区的末端,只有一小部分光耦合到输出波导中。为了将器件切换到导通状态,由于电光效应,通过在适当的一对电极上施加电压来降低势垒区的折射率。这个屏障创建了一个连接输入和输出的波导。
Integrated-optical high power amplitude modulator for the visible wavelength range in KTP
Summary form only given. Color image generation is an important application for amplitude modulators working in the visible spectral range. A suitable candidate is the integrated-optical Mach-Zehnder interferometer in KTP [Ruske et al. 1998]. However. Due to the very small cross section of its singlemode waveguides it can only be used for low power applications. In order to overcome this limitations, we realized a novel modulation device using large cross section waveguides with high optical damage threshold, the so called asymmetric diffraction amplitude modulator (ADAM) [Pertsch and Wachter 1999]. This device is based on a diffraction zone embedded asymmetrically between an input and an output waveguide. In the off-state the light is diffracted asymmetrically because of the reflecting boundary. At the end of the diffraction zone only a negligible fraction of light couples into the output waveguide. To switch the device to the on-state, the refractive index of a barrier region is reduced by applying a voltage to an appropriate pair of electrodes due to the electro-optical effect. This barrier creates a waveguide connecting the input and output.
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