| 1. | Proof deformable mirror face solution at cavity mirror in four - pass amplifier system 四程放大系统腔镜位置变形镜的面形解 |
| 2. | Prediction algorithm for atmosphere turbulence with control voltage of deformable mirror 利用复原电压预测大气湍流畸变波前方法 |
| 3. | Protective network can control the voltage between actuators to protect deformable mirrors 保护网络通过控制极间电压,保护变形镜。 |
| 4. | Continuous surface deformable mirror will be destroyed if the relative displacement of adjacent actuators is too far 摘要对于连续镜面变形镜,相邻驱动器的相对位移过大会损坏变形镜。 |
| 5. | At last , by use of finite analysis software , the compensation of 61 - element deformable mirror is discussed after we apply the protective network to the adaptive optics system 最后应用有限元分析软件,讨论加入保护网络后, 61单元变形镜拟合象差的能力变化。 |
| 6. | Mems technology used in the adaptive optics will bring an important influence . based on this purpose some novel deformable mirrors were discussed in the theory and fabrication process 摘要将mems技术用于自适应光学系统具有重大意义。本文从原理及制作工艺上论述了几种新型的可变形反射镜,为下一步的深入研究打下基础。 |
| 7. | Micromirrors offer advantages in size , weight , speed and performance over the traditional deformable mirrors and have tremendous potential in reducing the cost and weight of adaptive optical systems 使用mems技术制造的微变形镜由于其体积小,成本低,能耗低,响应快及集成度高等传统变形镜不具备的特点,成为变形镜发展的主流方向。 |
| 8. | The resolution of optical system can not reach its diffraction limit because of the phase aberrations caused by atmospheric turbulence and other wavefront errors . adaptive optics technology uses deformable mirrors to perform dynamic phase modulation and endow optical system the ability to decrease the influence of dynamic wavefront errors 大气湍流等动态干扰使光波面相位发生畸变,使光学系统的分辨率无法达到其衍射极限,而自适应光学系统使用变形镜对光波面进行动态相位调制,赋予了光学系统能动可变的能力而有效地解决了动态干扰的问题。 |
| 9. | The structure and character of deformable mirror were analyzed , and the conflict between the deformation band and the pitch of deformable cells was pointed out . the " two - time compensation " wave - front correct mode was introduced to settle that conflict . the method for allocating wave - front aberration and designing static corrector was found , and the " two - time compensation " wave - front correct mode was validated by simulation 分析了变形镜的结构特点,初步给出了变形镜本身驱动单元数与校正量之间的制约关系;引入“二次补偿”波前校正方案,解决了变形镜校正量有限与高功率固体激光系统波前误差起伏量大的矛盾,建立了波前校正对象优化分配、静态校正器优化设计等细节过程所需要的方法,通过仿真模拟验证了“二次补偿”波前校正方案对于降低变形镜校正量要求和放宽光学元件加工精度的作用; 5 |