Quantum-mimetic (QM) optical coherence tomography (OCT) combined with wavefront shaping is proposed as a novel approach to achieve high-resolution cross-sectional imaging through a strongly scattering medium. Specifically, QM-OCT is a recently devised OCT technique mimicking quantum OCT to acquire its main characteristic features, most notably immunity to group-velocity dispersion and enhancement of axial resolution, without quantum light. To validate the proposed method, we demonstrate experimentally that a one-dimensional cross-sectional image of a sample located behind a diffuser plate is obtained successfully and efficiently with QM-OCT by shaping the wavefront of light incident onto the diffuser.

拟与波前成形相结合的模拟量子（QM）光学相干断层扫描（OCT）是一种通过强散射介质实现高分辨率横截面成像的新颖方法。具体地说，QM-OCT是一种最近开发的，模仿量子OCT的OCT技术，以获取其主要特征，尤其是在没有量子光的情况下，对群速度色散具有抗扰性并提高了轴向分辨率。为了验证所提出的方法，我们通过实验证明，通过对入射到扩散板上的光的波阵面进行整形，可以使用QM-OCT成功，有效地获得位于扩散板后面的​​样品的一维横截面图像。