An Unprecedented Commensal Drift-Scan Survey with FAST
SHAO Astrophysics Colloquia
Title: An Unprecedented Commensal Drift-Scan Survey with FAST
Speaker: Di Li (李菂研究员/NAOC)
Time: 3 PM, Mar. 9th (Thursday)
Location: Lecture Hall, 3rd floor
Abstract:
ALMA is a revolutionary new telescope that is dramatically expanding our understanding of the high-frequency radio sky. Astronomers are using ALMA to make exciting new discoveries in topics ranging from star and planet formation to galaxies in the distant universe. I will describe the basic principles that allow ALMA to produce sub-arcsecond radio images and highlight some of the recent exciting results that illustrate the breadth of ALMA's science. I will also describe my recent work with my students and collaborators using ALMA to study nearby merging galaxies.
The Five-hundred-meter Aperture Spherical radio Telescope (FAST: Nan et al. 2011) has seen its first light on September 25, 2016. Major contracts, such as those of the actuators, dome-suspension integration testing, multi-beam L-band receivers, and etc. are still being worked on. We expect a minimum of two years’ of commissioning, leading to a successful delivery of FAST as a national facility and fulfillment of the project’s promise of making it available to the international communities.
The unique design of FAST makes feasible the most sensitive surveys of Galactic neutral hydrogen, HI galaxies, pulsars, radio transients, and ETI signals, toward the northern sky. The complexities of the FAST system, for example, the need to move and measure more than 1000 actuators with precision for tracking and pointing, necessarily limit its flexibilities and particularly, its speed. Considering the advantages and limitations of FAST, drift-scan will be predominant mode for large scale sky surveys with FAST for the foreseeable future, utilizing its full gain as well as circumventing its potential draw-backs, such as self-generated RFI and actuator faults.
With the 19-beam L-band feed-horn focal plane array, FAST is capable of covering the northern sky with about 220 24-hour drift scans. Considering maintenance, weather conditions, calibration, and substantial PI time, such a coverage will take about two full years. The need to implement a commensal drift-scan survey mode thus become overwhelming. Although seems obvious and advantageous, such a comprehensive commensal survey has never been accomplished by a major single-dish observatory. The key challenge is to find the right compromise between the respective science teams regarding scan patterns, calibration schemes, other science considerations, and staffing requirements.
I will report here our current proposed solutions to these problems. I will also discuss our science preparation efforts directly related to the commensal drift-scan surveys, including recent results on pulsar search, dwarf galaxies, dark gas, and FRBs.
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