GravityCam: wide-field, high-resolution imaging and high-speed photometry instrument

Craig MacKay; Martin Dominik; Iain Steele

doi:10.1117/12.2230901

19 August 2016 GravityCam: wide-field, high-resolution imaging and high-speed photometry instrument

Craig MacKay, Martin Dominik, Iain Steele

Proceedings Volume 9908, Ground-based and Airborne Instrumentation for Astronomy VI; 99083L (2016) https://doi.org/10.1117/12.2230901
Event: SPIE Astronomical Telescopes + Instrumentation, 2016, Edinburgh, United Kingdom

Abstract

The limits to the angular resolution achievable with conventional ground-based telescopes are unchanged over 70 years. Atmospheric turbulence limits image quality to typically ~1 arcsec in practice. We have developed a new concept of ground-based imaging instrument called GravityCam capable of delivering significantly sharper images from the ground than is normally possible without adaptive optics. The acquisition of visible images at high speed without significant noise penalty has been made possible by advances in optical and near IR imaging technologies. Images are recorded at high speed and then aligned before combination and can yield a 3-5 fold improvement in image resolution. Very wide survey fields are possible with widefield telescope optics. We describe GravityCam and detail its application to accelerate greatly the rate of detection of Earth size planets by gravitational microlensing. GravityCam will also improve substantially the quality of weak shear studies of dark matter distribution in distant clusters of galaxies. The microlensing survey will also provide a vast dataset for asteroseismology studies. In addition, GravityCam promises to generate a unique data set that will help us understand of the population of the Kuiper belt and possibly the Oort cloud.

Citation Download Citation

Craig MacKay, Martin Dominik, and Iain Steele "GravityCam: wide-field, high-resolution imaging and high-speed photometry instrument", Proc. SPIE 9908, Ground-based and Airborne Instrumentation for Astronomy VI, 99083L (19 August 2016); https://doi.org/10.1117/12.2230901

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KEYWORDS

Sensors

Telescopes

Stars

Space telescopes

Electron multiplying charge coupled devices

CMOS sensors

Astronomy

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