Title :
High temperature superconducting bearings for lunar telescope mounts
Author :
Lamb, M. ; Ki Bui Ma ; Cooley, R. ; Mackey, D. ; Ruling Meng ; Ching Wu Chu ; Wei Kan Chu ; Chen, P.C. ; Wilson, T.
Author_Institution :
Texas Center for Supercond., Houston Univ., TX, USA
fDate :
6/1/1995 12:00:00 AM
Abstract :
A telescope to be installed on the lunar surface in the near future must work in a cold and dusty vacuum environment for long periods without on site human maintenance. To track stars, the drive mechanism must be capable of exceedingly fine steps and repeatability. Further, the use of lightweight telescopes for obvious economic benefits burdens the requirement for stable support and rotation. Conventional contact bearings and gear drives have numerous failure modes under such a restrictive and harsh environment. However, hybrid superconducting magnetic bearings (HSMB) fit in naturally. These bearings are stable, light, passive, and essentially frictionless, allowing high precision electronic positioning control. By passive levitation, the HSMB does not wear out and requires neither maintenance nor power. A prototype illustrating the feasibility of this application is presented.<>
Keywords :
Moon; astronomical telescopes; electric control equipment; high-temperature superconductors; machine bearings; machine control; motor drives; position control; superconducting machines; application; electronic positioning control; frictionless bearings; high temperature superconductor; hybrid superconducting magnetic bearings; lunar telescope mounts; maintenance-free; motor drive mechanism; precision; Environmental economics; Gears; High temperature superconductors; Humans; Lighting control; Magnetic levitation; Moon; Power generation economics; Prototypes; Telescopes;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
