Optically super-resolved infrared imaging micro-spectroscopy (Conference Presentation)

Next-Generation Spectroscopic Technologies XIII Pub Date : 2020-04-27 DOI:10.1117/12.2558825
T. Huffman, R. Furstenberg, C. Kendziora, R. McGill
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Abstract

Optically Super-resolved InfraRed Imaging micro-Spectroscopy (OSIRIS) permits the collection of fully broadband hyperspectral images at the maximum optical spatial resolution. Modulated long wavelength light is directed onto the sample, while a short wavelength probe beam senses the resultant modulation in local temperature. Thus, OSIRIS constitutes the full generalization of color vision to full spectral bandwidth with spatial resolutions up to the maximum achievable with far-field optics (λprobe/4NA). The non-contact nature of OSIRIS permits deep tomography and real-time imaging, while preserving the versatility and ease of use of optical microscopy.
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光学超分辨红外成像微光谱学(会议报告)
光学超分辨红外成像微光谱学(OSIRIS)允许以最大的光学空间分辨率收集全宽带高光谱图像。调制的长波光被定向到样品上,而短波长的探针光束则感知局部温度的调制结果。因此,OSIRIS将彩色视觉全面推广到全光谱带宽,其空间分辨率达到远场光学(λ探头/4NA)可实现的最大分辨率。OSIRIS的非接触式特性允许深度断层扫描和实时成像,同时保留光学显微镜的多功能性和易用性。
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Next-Generation Spectroscopic Technologies XIII
Next-Generation Spectroscopic Technologies XIII
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