Evryscope Science: Exploring The Potential Of All-Sky Gigapixel-Scale Telescopes
- ASU Author/Contributor (non-ASU co-authors, if there are any, appear on document)
- David Sitar, Astronomy Laboratory Instructor (Creator)
- Institution
- Appalachian State University (ASU )
- Web Site: https://library.appstate.edu/
Abstract: Low-cost mass-produced sensors and optics have recently made it feasible to build telescope arrays which observe the entire accessible sky simultaneously. In this article, we discuss the scientific motivation for these telescopes, including exoplanets, stellar variability, and extragalactic transients. To provide a concrete example we detail the goals and expectations for the Evryscope, an under-construction 780 MPix telescope which covers 8660 sq. deg. in each 2-minute exposure; each night, 18,400 sq. deg. will be continuously observed for an average of ˜6 hr. Despite its small 61 mm aperture, the system's large field of view provides an étendue which is ~10% of LSST. The Evryscope, which places 27 separate individual telescopes into a common mount which tracks the entire accessible sky with only one moving part, will return 1%-precision, many-year-length, high-cadence light curves for every accessible star brighter than ~16th magnitude. The camera readout times are short enough to provide near-continuous observing, with a 97% survey time efficiency. The array telescope will be capable of detecting transiting exoplanets around every solar-type star brighter than mV = 12, providing at least few-millimagnitude photometric precision in long-term light curves. It will be capable of searching for transiting giant planets around the brightest and most nearby stars, where the planets are much easier to characterize; it will also search for small planets nearby M-dwarfs, for planetary occultations of white dwarfs, and will perform comprehensive nearby microlensing and eclipse-timing searches for exoplanets inaccessible to other planet-finding methods. The Evryscope will also provide comprehensive monitoring of outbursting young stars, white dwarf activity, and stellar activity of all types, along with finding a large sample of very-long-period M-dwarf eclipsing binaries. When relatively rare transients events occur, such as gamma-ray bursts (GRBs), nearby supernovae, or even gravitational wave detections from the Advanced LIGO/Virgo network, the array will return minute-by-minute light curves without needing pointing toward the event as it occurs. By coadding images, the system will reach V ~ 19 in 1-hr integrations, enabling the monitoring of faint objects. Finally, by recording all data, the Evryscope will be able to provide pre-event imaging at 2- minute cadence for bright transients and variable objects, enabling the first high-cadence searches for optical variability before, during and after all-sky events.
Evryscope Science: Exploring The Potential Of All-Sky Gigapixel-Scale Telescopes
PDF (Portable Document Format)
1629 KB
Created on 10/3/2018
Views: 459
Additional Information
- Publication
- Nicholas M. Law et al. (2015). PASP 127 234. https://doi.org/10.1086/680521. Publisher version of record available at: http://iopscience.iop.org/article/10.1086/680521/meta
- Language: English
- Date: 2015
- Keywords
- Evryscope, All-Sky Gigapixel-Scale Telescopes, GRBs,
exoplanets, stellar variability, and extragalactic transients