A technique based on photorefractive holography for imaging objects obscured by a scattering medium is presented. Using ultrashort pulse illumination, depth-resolved whole-field images of three dimensional objects embedded in scattering media have been obtained. Bulk photorefractive crystals and photorefractive multiple quantum-well (MQW) devices have been investigated as the hologram recording element. Images have been obtained through media of up to 16 scattering mean free paths with a system based on bulk rhodium-doped barium titanate (Rh:BaTiO/sub 3/). Using MQW devices, a real-time image acquisition (>0.4 ms) has been demonstrated when imaging through eight scattering mean free paths. The relative merits of photorefractive holography are discussed, including its potential to provide a higher dynamic range of detection than traditional photographic film based or electronic holography. This could be important for in vivo imaging through biological tissue.
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机译:提出了一种基于光折射全息术的成像技术,用于对被散射介质遮挡的物体进行成像。使用超短脉冲照明,获得了嵌入散射介质中的三维物体的深度分辨全场图像。作为全息记录元件,已经研究了块状光折变晶体和光折变多量子阱(MQW)器件。通过基于散装铑掺杂钛酸钡(Rh:BaTiO / sub 3 /)的系统,已通过多达16条散射平均自由程的介质获得了图像。使用MQW设备时,通过八个散射平均自由程进行成像时,已证明了实时图像采集(> 0.4 ms)。讨论了光折变全息术的相对优点,包括其提供比传统的基于摄影胶片或电子全息术更高的动态检测范围的潜力。这对于通过生物组织进行体内成像可能很重要。
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