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机译:通过结构化照明和自适应光学元件,通过厚组织增强分辨率
University of Georgia, College of Engineering, 101 Driftmier Engineering Center, Athens, Georgia 30602, United States;
University of Georgia, College of Veterinary Medicine, Department of Infectious Diseases, Athens, Georgia 30602, United States;
University of Georgia, Department of Cellular Biology, 724 Biological Sciences Building, Athens, Georgia 30602, United States;
University of Georgia, Department of Cellular Biology, 724 Biological Sciences Building, Athens, Georgia 30602, United States;
University of Georgia, College of Engineering, 101 Driftmier Engineering Center, Athens, Georgia 30602, United States;
fluorescence microscopy; adaptive optics; structured illumination microscopy; superresolution microscopy; biological imaging;
机译:结构照明提高了厚组织荧光成像的分辨率和对比度
机译:高环速率自适应光学洪水照明眼镜,具有结构照明能力
机译:高分辨率单细胞成像,用于全脑和脊髓和厚组织块的功能研究,使用发光二极管照明。
机译:具有结构照明和自适应光学器件的厚样品中的120nm分辨率
机译:改进结构化照明显微镜与自适应光学性能的方法
机译:结构化照明增强厚组织荧光成像中的分辨率和对比度
机译:通过结构化照明显微镜和自适应光学,通过多细胞厚样品深度通过多细胞厚样品进行全三维成像