Estimation of optical maturity parameter for lunar soil characterization using Moon Mineralogy Mapper (M3)

Prolonged exposure of the microscopic outer layer of the lunar surface to the space environment leads to the maturation of the surface. Maturation can be quantified and it may be expressed in terms of optical maturity (OMAT). Optical maturity estimations are very much helpful in the identification and mapping of the major minerals present on the lunar regolith. Estimation of the maturation and mineral mapping using remote sensing techniques are achieved, by coupling spectral reflectance of the lunar surface with an optimized origin. The present work estimates the optical maturity and Ferrous oxide content of the Goldschmidt and Schrodinger craters, through the recalibration of the classical method of Lucey et al. (2000a) with an origin of (0.08, 1.18) and Moon Mineralogy Mapper (M3) data. The overall recalibration results assure that the craters are highly matured.     

磨削表面粗糙度在线实时测量的研究

在试验研究的基础上,研制了一种新的光纤表面粗糙度在线测量系统。以光散射法为理论基础,用光纤束作为传感器,并用单片机进行数据处理和实时显示。针对外圆磨削在线检测中存在的冷却液、工件尺寸变化、环境干扰以及仪器的装夹与对中等问题进行了研究,找到了改进或解决的办法,从而更利于该测试技术的实施与推广。     

某型飞机机身合拢总装型架设计新技术

某型飞机机身合拢总装型架,在设计上采用了先进制造技术。型架上装有目前国际先进的光学坐标系统,型架地基采用整体框架式底盘。型架结构为分散式。按飞机飞行状态在型架中摆放,并由上方起吊形式下架。本文简要介绍了该型架的设计、制造情况及效果。     

CBERS-1卫星CCD相机光学系统设计

CBERS -1卫星CCD相机的光学系统采用了折射式光学系统。文章介绍了该系统的设计特点     

Design of Optical and Mechanical Structure for Lunar Simulator Based on Variable Shape and Adjustable Radiance

To simulate the different lunar phases and ensure continuous adjustability of the radiant brightness, a new broad spectrum light and frosted glass were applied and designed in the optical system for lunar simulator with the shapes and radiance being able to be adjusted. According to the engineering demand and index requirements of the optical system, three major design aspects are addressed, including the high reliability and maintainability for broad-spectrum light, heat dissipation in lunar simulator for long working hours, and bearing of the main frame under different working conditions. By designing a reasonable machine structure, and through the structure itself with the matrix arrangement of 48 axial flow fans, an effectively cooling air duct is established. Deformation and temperature were calculated by the finite element software ANSYS. The results showed that the displacement deformation reached 0.33mm and stress deformation reached 0.02MPa at the temperature of 20℃; when the main frame was in the temperature field between 20℃ and 65℃, the maximum displacement deformation reached 13.30mm and maximum stress deformation is 97.90MPa, and the amount of this deformation is very small in considering of the mechanical structure dimensions and weight of the lunar simulator.     

待发段火箭倾倒实时监测技术研究与实现

倾倒故障作为火箭待发段的一种故障形式，严重地威胁着航天员的安全。待发段倾倒应急救生的关键在于及时获取准确可靠的箭体姿态与倾倒信息，为指挥员实时提供可靠的逃逸判决依据。本文从应用角度，综合光学与计算机图像处理技术，提出了一种简单而实用的火箭倾倒监测技术，并简要介绍了应用此技术实现的系统主要功能结构与性能特点。本文介绍的技术也可应用于其他需要定位与姿态监视测量的领域。     

航天光学采样成像系统MTF的优化设计与MTFC

简要介绍了成像链、成像系统和遥感系统的概念;对像质和像质差异的表征和度量、成像系统性能的表征等予以说明;重点探讨航天光学采样成像系统MTF的优化设计与MTFC问题,并给出讨论结果。     

用于海洋成像仪的离轴三反主光学系统设计

海洋成像仪光学系统要求在宽视场内具有高空间分辨率。该成像仪处于35800km高的静止轨道，在2．46°视场内地面分辨率需要达到250m，光谱覆盖范围为0．4～11．5μm，包括可见光近红外12个通道和远红外两个通道。介绍了满足这些要求的离轴三反射镜主光学系统的设计及结果，像质达到了衍射极限。     

航天光学相机地面测控设备通用化研究

文章提出了航天光学相机控制系统测试设备通用化研究的思路，制定了通用化方案，对各功能模块进行了通用化设计。     

飞秒激光激励闪锌矿晶体产生太赫兹辐射的数学分析

基于飞秒激光激励闪锌矿晶体的太赫兹源实现方法较为简单,已有研究证明发射效率与晶体晶向选择,飞秒激光入射角以及偏振态相关,文章通过详细的理论分析与数学计算,讨论了正入射以及斜入射情况下太赫兹辐射最优化条件,获得了明确的飞秒激光入射角、偏振态、晶体晶向的选择依据,对提高太赫兹输出效率具有重要的指导意义。