Quantum optical coherence tomography of a biological sample

Magued B. Nasr; Darryl P. Goode; Nam Nguyen; Guoxin Rong; Linglu Yang,; Bjorn M. Reinhard; Bahaa E. A. Saleh; and Malvin C. Teich

arXiv:0809.4721·quant-ph·October 18, 2019

Quantum optical coherence tomography of a biological sample

Magued B. Nasr, Darryl P. Goode, Nam Nguyen, Guoxin Rong, Linglu Yang,, Bjorn M. Reinhard, Bahaa E. A. Saleh, and Malvin C. Teich

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TL;DR

This paper demonstrates the first experimental quantum optical coherence tomography images of biological tissue, utilizing entangled photons for dispersion-immune, high-resolution 3D imaging of onion-skin tissue with gold nanoparticles.

Contribution

It is the first to apply quantum optical coherence tomography to biological samples, showcasing dispersion-immune 3D imaging capabilities.

Findings

01

First experimental QOCT images of biological tissue

02

Successful 3D imaging of onion-skin tissue with gold nanoparticles

03

Demonstrates dispersion immunity in biological imaging

Abstract

Quantum optical coherence tomography (QOCT) makes use of an entangled-photon light source to carry out dispersion-immune axial optical sectioning. We present the first experimental QOCT images of a biological sample: an onion-skin tissue coated with gold nanoparticles. 3D images are presented in the form of 2D sections of different orientations.

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