Computer Science – Performance
Scientific paper
Sep 2007
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007spie.6693e..10l&link_type=abstract
Techniques and Instrumentation for Detection of Exoplanets III. Edited by Coulter, Daniel R. Proceedings of the SPIE, Volume 66
Computer Science
Performance
7
Scientific paper
The NASA Terrestrial Planet Finder Interferometer (TPF-I) and ESA Darwin missions are designed to directly detect mid-infrared photons from earth-like planets around nearby stars. Until recently, the baseline TPF-I design was the planar stretched X-Array, in which the four collectors spacecraft lie on the corners of a rectangle with the combiner spacecraft at the center, all in the plane normal to the direction to the target star. The stretched X-Array has two major advantages over other configurations: the angular resolution is very high, and the ability to eliminate instability noise. A direct consequence of the latter is that the null depth requirement is relaxed from 10-6 to 10-5. Implementation of the planar configuration requires a significant number of deployments, however, including large sunshades and secondary mirror supports. ESA had been pursuing a non-planar configuration with 3 collector telescopes. Dubbed the 'Emma' architecture (after the wife of Charles Darwin), this approach brings the combiner spacecraft up out of the plane of the collectors, and offers significant simplifications in the collector design with minimal deployments. The Emma X-Array combines the best aspects of each design, bringing together the 4-collector stretched X-Array collector configuration with the out-of-plane combiner of the Emma geometry. Both the TPF-I and Darwin missions have now adopted the Emma X-Array as the baseline design, moving a step closer to a single, joint TPF/Darwin mission. In this paper we assess the planet-finding performance of the Emma X-Array. An optimized completeness algorithm is used to estimate the number of Earths that can be found as a function of collector diameter. Other key parameters - the inner and outer working angles and the angular resolution - are also addressed.
Hunyadi Sarah L.
Lay Oliver P.
Martin Stefan R.
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