Optics in Adverse Environments: February 4-5, 1980, Los Angeles, California |
Contents
CONTAMINATION OF SPACEBORNE OPTICS IIPLUMESMONITORS STRAY | 61 |
21610 | 87 |
21612 | 95 |
Copyright | |
9 other sections not shown
Common terms and phrases
aberration absorption analysis analytical baffle beam bipropellant BRDF chamber cleaning coating coefficient components configuration CONTAM contamination control CRTF cryogenic crystal degradation density deposition detector diameter effects electron emission energy engine environment error budget evaluation extensometer film flash evaporator flow function fused silica geosynchronous glass GUERAP heliostats helium hydrazine IECM importance sampling infrared instrument ions Kapton laser lens mass materials measurements mission molecular monitor monopropellant NASA NASCAP NEG NEG nozzle on-orbit operation optical system orbit outgassing output particles payload performance plasma plasmasphere plume contamination potential predictions primary mirror problem pulse quartz crystal microbalance radiation ratio reflectance return flux rocket samples satellite scattering sensitive sensor shown in Figure shuttle simulation Skylab solar spacecraft Spacecraft Charging spacecraft contamination spectral Spectrometer spherical aberration sticking coefficient stray light substorm sunshade techniques telescope temperature thermal thruster TQCM trajectories tube voltage wavefront error wavelength window