Back in March last year, we reported the serendipitous detection of a Fast Radio Burst (FRB 180301) during our Breakthrough Listen observations at the CSIRO Parkes radio telescope in Australia. We are pleased to announce that a preprint of our analysis paper is now available, thanks to our collaboration with the SUPERB FRB team. FRBs are enigmatic radio signals that are incredibly bright and incredibly short lived. They last only for a few milliseconds, but can release more energy in their short life than the…Continue Reading “FRB 180301: Astrophysical, aliens or anthropogenic?”

Today, we are pleased to announce our release of 1 petabyte of Breakthrough Listen data, and two academic papers as submitted to leading astronomy journals. Building on the results we presented in 2017, we have now submitted a more wide-ranging and detailed analysis of 1327 nearby stars — 80% of our nearby star sample. These new results represent the most comprehensive and sensitive radio search for extraterrestrial intelligence (SETI) in history. Further details can be found in our press release, and supporting materials can be…Continue Reading “1327 Star Analysis and Public Data Release”

We have just released a short AAS Research Note on a search for technosignatures from asteroid (514017) 2015 BZ509 (aka BZ509). While we didn’t find any candidate signals, we’ll be searching a selection of intriguing asteroids as part of the ongoing Breakthrough Listen program. BZ509 dances around the Sun in a remarkable retrograde (backward) orbit, stabilized by perfectly-timed close encounters with Jupiter’s regular orbit (a ‘resonance’). A leading explanation for BZ509’s unusual orbit is that it came from outside the Solar system and got trapped…Continue Reading “SETI observations of asteroid BZ509”

We’re pleased to announce that our journal article detailing the Breakthrough Listen data recorder at the Parkes radio telescope has been published in the Publications of the Astronomical Society of Australia. The Breakthrough-Parkes data recorder digitises signals from the radio telescope and distributes the data across a cluster of high-performance computers. The system uses digital signal processing boards designed for radio astronomy by the CASPER collaboration, which outputs digitized data over high-speed Ethernet. The digitized data–more than 128 Gb/s–are then recorded to disk across 26…Continue Reading “New Parkes instrument paper published in PASA”