Add to ORKGMechanical aspects in the development of an oscillating scan mirror mechanism were reviewed, that featured a remarkably low level of structural vibration for the impact energies involved in mirror oscillation. Another feature was that energy lost during impact was returned to the mirror by applying torque only during the instant of impact. Because the duration of impact was only about 0.010 second, it was critical that energy losses be minimal because there was not much time to restore them
Spacecrafts operating in orbit benefit vastly from the disturbance-free environment to achieve the d...
Thin, lightweight mirrors are needed for future x-ray space telescopes in order to increase x-ray co...
Microvibration of flywheels strongly affects the imaging quality of space cameras. A passive vibrati...
A high-performance reactionless scan mirror mechanism was developed for space applications to provid...
During the thermal vacuum test phase of the GOES 7 spacecraft, the primary scan mirror system exhibi...
The Mirror Transport Mechanism (MTM), which supports a pair of dihedral mirrors and moves them in a ...
We developed a scan mirror mechanism (SMM) that enable a slit-based spectrometer or spectropolarimet...
One of the main difficulties encountered in the development of a multispectral scanner is the realiz...
The Hubble Space Telescope features the most exacting line of sight jitter requirement thus far impo...
This paper describes the design, testing, and lessons learned during the development of the Lucy Ral...
The technical innovation involves refinement of the classic optical technique of averaging surface m...
Analytical tools and processes are being developed at NASA Marshal Space Flight Center in support of...
An aerial vehicle rotating in gyroscopic fashion about one of its axes has an optical system which s...
Some aspects of knowledge acquired in the field of space mechanisms by Societe Europeenne de Propuls...
International audienceACMAS program, in partnership with CNES and DGA, intends to develop an innovat...
Spacecrafts operating in orbit benefit vastly from the disturbance-free environment to achieve the d...
Thin, lightweight mirrors are needed for future x-ray space telescopes in order to increase x-ray co...
Microvibration of flywheels strongly affects the imaging quality of space cameras. A passive vibrati...
A high-performance reactionless scan mirror mechanism was developed for space applications to provid...
During the thermal vacuum test phase of the GOES 7 spacecraft, the primary scan mirror system exhibi...
The Mirror Transport Mechanism (MTM), which supports a pair of dihedral mirrors and moves them in a ...
We developed a scan mirror mechanism (SMM) that enable a slit-based spectrometer or spectropolarimet...
One of the main difficulties encountered in the development of a multispectral scanner is the realiz...
The Hubble Space Telescope features the most exacting line of sight jitter requirement thus far impo...
This paper describes the design, testing, and lessons learned during the development of the Lucy Ral...
The technical innovation involves refinement of the classic optical technique of averaging surface m...
Analytical tools and processes are being developed at NASA Marshal Space Flight Center in support of...
An aerial vehicle rotating in gyroscopic fashion about one of its axes has an optical system which s...
Some aspects of knowledge acquired in the field of space mechanisms by Societe Europeenne de Propuls...
International audienceACMAS program, in partnership with CNES and DGA, intends to develop an innovat...
Spacecrafts operating in orbit benefit vastly from the disturbance-free environment to achieve the d...
Thin, lightweight mirrors are needed for future x-ray space telescopes in order to increase x-ray co...
Microvibration of flywheels strongly affects the imaging quality of space cameras. A passive vibrati...