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Parkes observations for project P958 semester 2018APRS_BPSR_13
A major breakthrough in fast radio burst (FRB) astronomy was recently made when the repeating FRB 121102 was localized to sub-arcsecond precision. The bursts were found to originate in a bright radio nebula (hypothesized to be a young supernova remnant or pulsar wind nebulae) in a distant dwarf galaxy. These dwarf galaxies are also preferential hos... morets to superluminous supernova and long gamma-ray bursts, and it has been therefore suggested that the source of the repeating FRB could be a young highly magnetised neutron star. While an understanding of the repeating FRB is emerging, it is still unclear what relationship it has to the rest of the population. Over the next six months, searches with the Australian Square Kilometre Array Pathfinder (ASKAP) are poised to detect at least 20 additional FRBs, some that will be localized to a few arcseconds. Here we propose to search this population for repeats. Our comprehensive sample and a dense monitoring campaign of well localised bursts, at a fluence limit more than 60 times lower than that of their detections, will either confirm the presence of additional repeating FRBs or the uniqueness of FRB 121102 amongst the population. less
Astronomical and Space Sciences not elsewhere classified
31 Mar 2018
30 Sep 2018
Creative Commons Attribution 4.0 International Licence
Shannon, Ryan; Macquart, Jean-Pierre; Dodson, Richard; Phillips, Chris; Deller, Adam; James, Clancy; Bannister, Keith; Oslowski, Stefan; Kerr, Matthew; Flynn, Chris; Bhandari, Shivani; Farah, Wael; Qiu, Hao (2018): Parkes observations for project P958 semester 2018APRS_BPSR_13. v1. CSIRO. Data Collection.
All Rights (including copyright) CSIRO 2018.
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Australia Telescope National Facility
P958 - Searching for repetition from ASKAP fast radio bursts
Fast radio bursts are brilliant flashes of radio emission that outshine most other sources in the sky for the blink of they eye that they are seen. Because of their short duration, it has been hard to tell where they come from and what causes them. Recently one has been found to repeat (making it much easier to study), and it comes from a very dist... moreant galaxy (billions of light years away). To better understand the bursts, we are conducting a survey with the Australian Square Kilometre Array Pathfinder in Western Australia to more than double the known objects. We are using the Parkes telescope to see if any of the new bursts repeat. less
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