Abstract
GravityCam is a new concept of ground-based imaging instrument capable
of delivering significantly sharper images from the ground than is
normally possible without adaptive optics. Advances in optical and near
infrared imaging technologies allow images to be acquired at high speed
without significant noise penalty. Aligning these images before they are
combined can yield a 2.5 to 3 fold improvement in image resolution. By
using arrays of such detectors, survey fields may be as wide as the
telescope optics allows. Consequently, GravityCam enables both
wide-field high-resolution imaging and high-speed photometry. We
describe the instrument and detail its application to provide
demographics of planets and satellites down to Lunar mass (or even
below) across the Milky Way. GravityCam is also suited to improve the
quality of weak shear studies of dark matter distribution in distant
clusters of galaxies and multiwavelength follow-ups of background
sources that are strongly lensed by galaxy clusters. The photometric
data arising from an extensive microlensing survey will also be useful
for asteroseismology studies, while GravityCam can be used to monitor
fast multiwavelength flaring in accreting compact objects, and promises
to generate a unique data set on the population of the Kuiper belt and
possibly the Oort cloud.
Original language | English |
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Article number | e047 |
Number of pages | 18 |
Journal | Publications of the Astronomical Society of Australia |
Volume | 35 |
Publication status | Published - 27 Dec 2018 |
Keywords
- Gravitational lensing: micro
- Gravitational lensing: weak
- Kuiper belt: general
- (stars:) planetary systems