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American Astronomical Society, Astrophysical Journal, 2(808), p. 149, 2015

DOI: 10.1088/0004-637x/808/2/149

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Lower Limits on Aperture Size for an ExoEarth-Detecting Coronagraphic Mission

This paper is made freely available by the publisher.
This paper is made freely available by the publisher.

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Abstract

The yield of Earth-like planets will likely be a primary science metric for future space-based missions that will drive telescope aperture size. Maximizing the exoEarth candidate yield is therefore critical to minimizing the required aperture. Here we describe a method for exoEarth candidate yield maximization that simultaneously optimizes, for the first time, the targets chosen for observation, the number of visits to each target, the delay time between visits, and the exposure time of every observation. This code calculates both the detection time and multi-wavelength spectral characterization time required for planets. We also refine the astrophysical assumptions used as inputs to these calculations, relying on published estimates of planetary occurrence rates as well as theoretical and observational constraints on terrestrial planet sizes and classical habitable zones. Given these astrophysical assumptions, optimistic telescope and instrument assumptions, and our new completeness code that produces the highest yields to date, we suggest lower limits on the aperture size required to detect and characterize a statistically-motivated sample of exoEarths. ; Comment: Accepted for publication in ApJ; 38 pages, 16 Figures, 3 Tables