Researchers at Purdue University and Imperial College, London have created a holographic imaging system capable of visualizing structure inside living tissue. The researchers used optical coherence imaging (OCI), a technique that directly records complete images of thin tissue sections with a video camera. Tissue readily reflects image-bearing infrared light, but it also strongly diffuses the light, an effect that would ordinarily overwhelm the coherent pictures. The key to the OCI technique is a dynamic holographic film—a 100-layer photorefractive quantum-well device—that filters out the diffused, incoherent background light but passes the coherent, full-frame images to a camera. By adjusting the relative delay between the image beam and the reference beam in the OCI system’s imaging interferometer, the researchers control the depth of the image plane and thereby assemble a slice-by-slice tour through a tumor while leaving the tissue intact. Application of the OCI technique to cultured rat tumors (see image)...
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1 September 2003
September 01 2003
Citation
James R. Riordan; Tumor holograms. Physics Today 1 September 2003; 56 (9): 9. https://doi.org/10.1063/1.4797162
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