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Lunar optical interferometry and hypertelescope for direct imaging at high resolution

A. Labeyrie

2020Philosophical Transactions of the Royal Society A Mathematical Physical and Engineering Sciences13 citationsDOI

Abstract

Following earlier proposals for optical stellar interferometer concepts in space and on the Moon, the improved 'hypertelescope' version capable of direct high-resolution imaging with a high limiting magnitude became tested on Earth, proposed for space, and is now also proposed for the Moon. Many small mirrors can be dilutely arrayed in a lunar impact crater spanning 10-25 km. And a larger version, modified for a flat lunar site and spanning up to several hundred kilometres can be built later if needed for a higher resolution and limiting magnitude. Even larger versions, at the scale of many thousand kilometres, also appear feasible in space at some stage, in the form of a controlled flotilla of mirrors. Among the varied science targets considered with the imaging resolution expected, reaching 100 nano-arcseconds on the Moon, are: (a) the early detection and resolved imaging of Near Earth Objects, and their monitoring for eventual collision avoidance by orbital deflection; (b) multi-pixel imaging of exoplanets as part of the search for exolife by mapping local seasonal spectral variations; (c) the physics of neutron stars and black holes at the galactic centre and in other Active Galactic Nuclei; and (d) distant galaxies of cosmological interest. This article is part of a discussion meeting issue 'Astronomy from the Moon: the next decades'.

Topics & Concepts

PhysicsLimiting magnitudeAstronomyExoplanetGalaxyImpact craterInterferometryLimitingActive galactic nucleusStarsSpace explorationAstrophysicsRemote sensingGeologyMechanical engineeringEngineeringStellar, planetary, and galactic studiesPlanetary Science and ExplorationAstro and Planetary Science
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