The CDM AO system for wavefront correction is built, which consists of two 32-element DMs.
本文采用两个32单元变形镜搭建了一个用于相位校正的组合变形镜。
Therefore, these results validate the probability and availability of applying LC SLM in high accuracy and resolution wavefront correction.
由此验证了液晶空间光调制器用于高精度、高分辨波前校正的可行性和有效性。
In normal adaptive optical system, the deformable mirror and the wavefront sensor are conjugated in order to achieve the best wavefront correction.
在常规的自适应光学系统中,变形镜与波前传感器满足共轭位置关系以保证最好的校正效果。
In order for this technique to work, the distortions imposed on the incoming light during its passage through the Earth's atmosphere must be removed using a trick called "wavefront correction".
为了使这项技术得以实施,通过“波前校正”,入射光线经过地球大气造成的扭曲会被移动。
The model not only can be applied to the correction of refractive errors such as myopia and astigmatism, but also can be used in wavefront guided laser refractive surgery.
模型有较强的通用性,适用于传统仅矫正屈光不正(近视、远视、散光)的光学区模型,也适用于波前像差引导的激光眼屈光手术。
Now, the question of how to optimize wavefront guided refractive surgery is a serious question, even though the technique is still far from reaching a perfect correction.
现在尽管我们的技术远未达到实现完美矫正的境界,如何优化波前引导的屈光手术仍是一个非常重要的问题。
The correction of the nonlinearity of the liquid crystal wavefront corrector and the closed loop correction were investigated.
研究了液晶波前校正器位相调制曲线非线性的校正以及液晶自适应闭环对畸变波前的校正。
The wavefront corrector is one of the key elements of AO system. And improvement of the spatial correction capability of correctors is the primary coverage of AO theory and experiment research.
波前校正器是自适应光学系统中的核心部件,如何提高波前校正器的空间校正能力是自适应光学理论和实验研究的重要内容之一。
We present "phase cutting" of the calculated phase to solve the problem that variance of the calculated residual wavefront is not corresponding to the correction effect of AO system.
提出了对计算出的位相进行“剪接”的办法,解决了残余位相方差与自适应光学的校正效果没有对应关系的问题。
By computing the time-averaged wavefront, the adaptive conjugate correction wavefronts are achieved. Then the conjugate wavefronts are applied to correct the corresponding aberration wavefronts.
通过计算各相位角畸变波前的平均值,并将其共轭波前作为相应时刻的校正信号应用于畸变波前的自适应校正。
This paper mainly concludes research on correction of static low-frequency wavefront aberration induced by nd: glass in the Multipass Amplifier.
本文主要就多程放大系统中钕玻璃放大片引入的低频静态位相误差进行研究。
This paper mainly concludes research on correction of static low-frequency wavefront aberration induced by nd: glass in the Multipass Amplifier.
本文主要就多程放大系统中钕玻璃放大片引入的低频静态位相误差进行研究。
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