Abstract: Three different types of deformable mirror Spatial Light Modulators (SLMs) based on device concepts like Viscoelastic Control Layer (VCL), Cantilever Beam Mirror (CBM), and Moving Liquid Mirror (MLM) have been developed. All of them allow to create deformation profiles which act as phase gratings whose period is defined by the pitch of the pixel electrodes. The diffraction of the incident light is used to achieve spatial light modulation. The operation principles of the different types of SLMs are outlined in detail. All the mentioned SLMs can be manufactured on top of a high voltage CMOS circuitry. SLMs with up to 2 million pixels in analog operation mode have been realized up to now. The benefits of the different approaches with respect to fabrication aspects and respect to different applications will be addressed. For the angular deflection of light a new type of resonant microscanner mirror was developed. The device is based on a silicon micromechanical torsional actuator. The new approach for the configuration of the electrodes and the resulting driving principle allows to achieve large scanning angles (plus or minus 30 degree optically at atmospheric pressure) at low driving voltages (20 V max.) and low power consumption (less than 1 $mu@W). The operation principle of the new device enables the realization of 2D scanners as well. !8
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机译:摘要:基于粘弹性控制层(VCL),悬臂梁镜(CBM)和移动液镜(MLM)等设备概念,开发了三种不同类型的可变形镜空间光调制器(SLM)。所有这些允许创建形变轮廓,用作相位光栅,其周期由像素电极的间距定义。入射光的衍射用于实现空间光调制。详细概述了不同类型的SLM的操作原理。所有提到的SLM都可以在高压CMOS电路之上制造。迄今为止,已经实现了在模拟操作模式下具有200万像素的SLM。将解决关于制造方面和关于不同应用的不同方法的益处。对于光的角偏转,开发了一种新型的共振微扫描镜。该设备基于硅微机械扭转致动器。采用新的电极配置方法和由此产生的驱动原理,可以在低驱动电压(最大20 V)和低功耗(小于1美元)下实现大扫描角(在大气压下光学正负30度)。 mu @ W)。新设备的工作原理也可以实现2D扫描仪。 !8
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