Sub-second A-scan Acquisition Using Marginal Spectral-Domain Quantum Optical Coherence Tomography
Abstract
We report an optimized implementation of spectral-domain quantum optical coherence tomography (SD-QOCT) capable of acquiring axial scans (A-scans) of multilayer samples without in the absence of mechanical scanning, at an unprecedented speed. We demonstrate a proof-of-concept system that integrates a diffraction grating, a high-resolution intensified CCD camera, and a high-flux photon-pair source operating in the VIS-NIR region (810 nm). This configuration enables the acquisition of an entire marginal SD-QOCT interferogram in a single camera exposure, yielding a transverse A-scan with a record acquisition time of 100 ms and a penetration depth of 4 mm. The measured interferometric response shows excellent agreement with the theoretical model. These results represent a decisive step toward the practical deployment of SD-QOCT as a competitive imaging modality for biomedical applications.
Cite
@article{arxiv.2512.01110,
title = {Sub-second A-scan Acquisition Using Marginal Spectral-Domain Quantum Optical Coherence Tomography},
author = {P. D. Yepiz-Graciano and D. Salamanca-Roldán and H. Cruz-Ramírez and A. B. U'Ren and R. Ramírez-Alarcón},
journal= {arXiv preprint arXiv:2512.01110},
year = {2026}
}
Comments
In preparation for journal submission