Tianting Zhong

TL;DR: This paper presents a plain yet reliable DOPC setup with an embedded four-phase, non-iterative approach that can rapidly compensate for the wavefront modulator’s surface curvature, together with a non-phase-shifting in-line holography method for optical phase conjugation in the absence of an electro-optic modulator (EOM).

TL;DR: In this article, a square rule of binary-amplitude modulation was proposed to quantify how many pixels on the spatial light modulator incorrectly modulate the wavefront for the instant status of the medium or the whole system.

TL;DR: Wavefront shaping can be used to achieve optical focusing deep inside scattering media for biomedical imaging, sensing, stimulation, and treatment as discussed by the authors , which can also be used for noninvasive or minimally invasive optical interactions and arbitrary control inside deep tissues.

TL;DR: A square rule of binary-amplitude modulation, directly relating the measured focusing performance with the error in the optimized wavefront, is theoretically proved and experimentally validated and proposed as a novel algorithm, dynamic mutation algorithm, with high adaptability against perturbations by probing how far the optimization has gone toward the theoretically optimum.

TL;DR: A probability-based iterative algorithm combining genetic algorithm (GA) and ant colony optimization (ACO) in which the new solutions can be generated based on a probability map is proposed, able to obtain optimization results with optimal efficiency for single and multiple focuses behind scattering media.