Optomechanical Design and Precision Instruments: 31 July-1 August 1997, San Diego, CaliforniaAlson E. Hatheway |
Contents
Comparing blade and notch types of flexures 313203 | 24 |
Design and fabrication of lowcost adjustable lens mounts 313205 | 41 |
Analysis of highprecision optical positioning systems for vibration stability at the Advanced | 47 |
Copyright | |
13 other sections not shown
Common terms and phrases
accuracy achieved actuator adhesive adjustment alignment angle applied assembly axial axis azimuth B-SiC beam bi-metallic bending blade buffer layer C/SiC camera model carbon fiber ceramic CFRP clamping coating coefficient components coordinate system cylinder deformation Detector Mount Detector Package diameter elastomer etch rate exit pupil fiber finite element analysis finite element model flex pivot flexure FUSE glass GMOS grating hardstop hologram holographic HOPLA instrument kapton lens lenses linear loads located machined manufacturing Mars Pathfinder material measured mechanism metal matrix composite microscope mirror motion motor notch OIWFS optical elements optical surface optical table Optomechanical outer paraffin parameters performance pickoff pickoff arm pixel plate polishing position requirements retardance rotation set screws shown in Figure spectrograph stage stepper motor stiffness stress structure subcell substrate surface errors Table telescope temperature thermal conductivity thickness tilt type flexure Wavefront Sensor X-axis