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国家自然科学基金(1174279)

作品数:4 被引量:35H指数:3
相关作者:宣丽李大禹刘永刚夏明亮郑贤良更多>>
相关机构:中国科学院长春光学精密机械与物理研究所中国科学院大学中国科学院更多>>
发文基金:国家自然科学基金更多>>
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液晶自适应光学在天文学研究中的应用展望被引量:18
2015年
液晶波前校正器作为一种高单元密度的新型波前校正器件,通过相息图的衍射可以轻松实现十微米的波前位相校正量。因此,基于液晶波前校正器的自适应光学(LCAO)系统是21世纪天文观测领域非常有希望普及的系统。但是液晶波前校正器存在响应速度慢(〉10ms)、能量利用率低的双重问题,国际上一直处于探索研究中。本课题组不但解决了能量问题,而且在速度方面不断取得进步,所研制的LCAO系统与1.23m口径望远镜连接,清晰观测到土星及其环绕的光环带,分辨出4.8和5.5视星等的α-Com双星,成像分辨率达到1.8倍衍射极限分辨率;目前系统延迟时间只有2ms,可以说已达到工程应用水平,在装备8~10m级大口径天文学望远镜方面极具应用潜力。
宣丽李大禹刘永刚
关键词:液晶波前校正器自适应光学望远镜
视标引导的自适应光学眼底成像视场精确定位被引量:11
2015年
自适应光学眼底相机,由于较高的成像分辨率和人眼等晕角的存在,单次成像的视场被限制在1°左右。必须实现单个视场的精确定位和多个视场的图像拼接,才能得到完整的眼底图像。为了精确定位,文中分析视标引导成像视场的原理,设计了新型的视标引导系统。平行光照明视标,并通过透镜聚焦于人眼瞳孔中心,这样能够精确测量眼底成像视场的位置。基于此搭建的自适应光学系统可在22.6°的眼底范围内成像,精度达到0.003°。这套系统成功实现了单个细胞的追踪和眼底血管的大视场拼接,这将有益于液晶自适应光学系统在临床眼科的应用和推广。
刘瑞雪郑贤良夏明亮鲁兴海宣丽
关键词:视网膜成像
Flood-illuminated adaptive optics ophthalmoscope with a single curved relay mirror被引量:3
2013年
For decreasing light loss and diminishing the aberrations of the optical system,an open-loop adaptive optics(AO)system for retinal imaging in vivo is introduced.Taking advantage of the ability of young human eyes to accommodate,there was only one single curved mirror to make the pupil of the eye conjugate with the wavefront corrector and the wavefront sensor.A liquid crystal spatial light modulator(LC-SLM)was adopted as the wavefront corrector because the LC-SLM can be made in a small size to match the sensor.To reduce a pair of lenses or focusing mirrors,the wavefront corrector and sensor are positioned in the noncommon path.The system adopts open-loop control and the high-precision LC-SLM guarantees the effectiveness of the AO system.The designed field of view is 1°on the retina(about 300μm).The image quality was simulated with different mirror surface types,including circular,parabolic,and hyperbolic.A hyperbolic mirror with conic constant−1.07,which is close to−1,could best eliminate the aberrations.Theoretical analysis showed that the optical throughput of this system was at least 22.4%higher than that of a standard transmission AO system.In a practical experiment,a parabolic mirror was positioned in the optical path.Images of the cone photoreceptors and the capillary vessels were obtained successfully.This system simplifies the optical setup in comparison to the commonly used 4F systems while still guaranteeing the effectiveness of AO to correct the ocular aberrations.
Ruixue LiuYue QiXianliang ZhengMingliang XiaLi Xuan
关键词:MIRROROPTICS
Retinal axial focusing and multi-layer imaging with a liquid crystal adaptive optics camera被引量:3
2014年
With the help of adaptive optics (AO) technology, cellular level imaging of living human retina can be achieved. Aiming to reduce distressing feelings and to avoid potential drug induced diseases, we attempted to image retina with dilated pupil and froze accommodation without drugs. An optimized liquid crystal adaptive optics camera was adopted for retinal imaging. A novel eye stared system was used for stimulating accommodation and fixating imaging area. Illumination sources and imaging camera kept linkage for focusing and imaging different layers. Four subjects with diverse degree of myopia were imaged. Based on the optical properties of the human eye, the eye stared system reduced the defocus to less than the typical ocular depth of focus. In this way, the illumination light can be projected on certain retina layer precisely. Since that the defocus had been compensated by the eye stared system, the adopted 512 × 512 liquid crystal spatial light modulator (LC-SLM) corrector provided the crucial spatial fidelity to fully compensate high-order aberrations. The Strehl ratio of a subject with -8 diopter myopia was improved to 0.78, which was nearly close to diffraction-limited imaging. By finely adjusting the axial displacement of illumination sources and imaging camera, cone photoreceptors, blood vessels and nerve fiber layer were clearly imaged successfully.
刘瑞雪郑贤良李大禹夏明亮胡立发曹召良穆全全宣丽
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