Your search keyword '"Kasl, Eldon"' showing total 3 results

1. Thermal Stability of a 4 Meter Primary Reflector for the Scanning Microwave Limb Sounder (SMLS)

Author

Cofield, Richard E and Kasl, Eldon P

Subjects

Optics, Fluid Mechanics And Thermodynamics

Published

2011

2. A Deployable Primary Mirror for Space Telescopes

Author

Lake, Mark S, Phelps, James E, Dyer, Jack E, Caudle, David A, Tam, Anthony, Escobedo, Javier, and Kasl, Eldon P

Subjects

Optics

Abstract

NASA Langley Research Center, Composite Optics, Inc., and Nyma/ADF have developed jointly a deployable primary mirror for space telescopes that combines over five years of research on deployment of optical-precision structures and over ten years of development of fabrication techniques for optical-precision composite mirror panels and structures. The deployable mirror is directly applicable to a broad class of non-imaging "lidar" (light direction a nd ranging) telescopes whose figure-error requirements are in the range of one to ten microns RMS. Furthermore, the mirror design can be readily modified to accommodate imaging-quality reflector panels and active panel-alignment control mechanisms for application to imaging telescopes. The present paper: 1) describes the deployable mirror concept; 2) explains the status of the mirror development; and 3) provides some technical specifications for a 2.55- m-diameter, proof-of-concept mirror. Keywords: precision deployment, hinge joint, latch joint, deployable structures, fabrication, space telescopes, optical instruments, microdynamics.

Published

1999

3. Deployable primary mirror for space telescopes

Author

Tam Anthony, A Caudle David, P Kasl Eldon, S Lake Mark, Escobedo Javier, E Dyer Jack, and E Phelps James

Subjects

Primary mirror, Physics, Optical radar, Optics, Lidar, business.industry, Hinge, Ranging, Reflector (antenna), Technical specifications, Space (mathematics), business

Abstract

NASA Langley Reseach Center, Composite Optics, Inc., and Nyma/ADF have developed jointly a deployable primary mirror for space telecsopes that combines over five years of research on deployment of optical-precision structures and over ten years of development of fabrication techniques for optical-precision composite mirror panels and structures. The deployable mirror is directly applicable to a broad class of non-imaging "lidar" (light direction and ranging) telescopes whose figure-error requirements are in the range of one to ten microns RMS. Furthermore, the mirror design can be readily modified to accommodate imaging-quality reflector panels and active panel-alighment control mechanisms for application to imaging telescopes. The present paper: 1) describes the deployable mirror concept; 2) explains the status of the mirror development; and 3) provides some technical specifications for a 2.55-m-diameter, proof-of-concept mirror.

Published

1999