Parkes observations for project P1066 semester 2021APRS_19

We propose 36 hrs of Parkes observations to continue our successful Deeper, Wider, Faster (DWF) program to detect fast transients and fast radio burst (FRB) counterparts and help resolve their nature. DWF coordinates over 80 observatories worldwide at all wavelengths, from radio to gamma-ray to dete...

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Bibliographic Details
Format: Dataset
Language:unknown
Published: Commonwealth Scientific and Industrial Research Organisation
Subjects:
transients
Astronomical sciences not elsewhere classified
Astronomical sciences
PHYSICAL SCIENCES
Gemini
Hess
South Pole
South pole
Online Access:https://doi.org/10.25919/nett-w878
https://researchdata.edu.au/parkes-observations-project-semester-2021aprs19/1768812
https://data.csiro.au/collection/csiro:52451
http://hdl.handle.net/102.100.100/429686?index=1
Description
Summary:We propose 36 hrs of Parkes observations to continue our successful Deeper, Wider, Faster (DWF) program to detect fast transients and fast radio burst (FRB) counterparts and help resolve their nature. DWF coordinates over 80 observatories worldwide at all wavelengths, from radio to gamma-ray to detect and follow-up FRBs and other elusive fast (millisecond-to-hours duration) transients. Crucially, we coordinate simultaneous deep, fast-cadenced, wide-field observations at all wavelengths to observe the same field at the same time as Parkes, enabling multi-wavelength detection before, during, and after the radio detection. Little to no multi-wavelength observations to any significant depth have been done on these timescales, leaving this parameter space underexplored. DWF coordinates major facilities to observe with Parkes, such as South Pole Telescope (mm/sub-mm), GROND (infrared), CTIO Dark Energy Camera (optical), Astrosat (UV/X-ray), HXMT (X-ray), HESS (gamma-ray), and Pierre Auger (high-energy). We perform realtime data processing and transient identification at all wavelengths that enables triggering our deep, rapid-response (within minutes) follow up programs for deep spectroscopy and imaging using the world's largest telescopes (e.g., Keck, VLT, Gemini, SALT, ATCA).

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