Coefficient-metric gradient-based digital wavefront correction for full-field swept-source optical coherence tomography

Full-field swept source optical coherence tomography (FF-SS-OCT) achieves fast acquisition of depth-resolved volumetric data. It preserves the phase stability across en face features, which enables digital wavefront correction during post-processing. Traditional digital wavefront correction methods, such as coordinate search, are reliable but time-consuming. We present CoMGrad, a novel GPU-accelerated coefficient-metric gradient-based optimisation method for digital wavefront correction for FF-SS-OCT. CoMGrad utilises the differentiability of the mapping from the Zernike coefficients to the image quality metric. Reverse-mode automatic differentiation and the Adam optimiser were used to increase time efficiency. Theoretical analysis and in vivo aberration correction tests on human retinas demonstrate that CoMGrad provides more than a tenfold increase in time efficiency compared to coordinate search.