Living body eye retina high-resolution imaging system with two wavefront correctors

The invention relates to a living body eye retina high-resolution imaging system with two wavefront correctors. The living body eye retina high-resolution imaging system with two wavefront correctors comprises a beacon luminous emission subsystem, a control subsystem and an illuminating imaging subsystem. The beacon luminous emission subsystem provides a beacon light source for eye aberration measuring and rectification. The control subsystem controls the two wavefront correctors to rectify eye aberration. A lighting source provides optical radiation and enters the eye lighting retina through an optical path, and an imaging system and a camera are used for shooting an eye ground retina high-resolution image. The two wavefront rectifying devices adopt different control algorithms. Based on a beacon optical image obtained by the imaging camera, the first wavefront rectifying device selects an objective function and performs controlling with the optimizing algorithm to rectify eye low-order aberration. After rectification is finished, the first wavefront corrector is kept fixed. Left eye aberration is measured by a wavefront sensor and the second wavefront rectifying device is controlled to rectify the left eye aberration in real time. After rectification is stable or reaches the preset value, the lighting imaging subsystem is started to shoot the eye ground retina high-resolution image. The living body eye retina high-resolution imaging system of the two wavefront rectifying devices effectively improves the aberration rectifying capability of the system.