Om onze kennis over het heelal te vergroten, verlegt ASTRON voortdurend de grenzen van de technologie in haar radiotelescopen. Deze expertise stellen wij nu ter beschikking om de innovatieve kracht van ondernemers te vergroten. Hiertoe lanceren we het Wireless Data Lab (WDL), een proeftuin waarmee ASTRON haar kennis en faciliteiten op het gebied van draadloze dataoverdracht beschikbaar stelt aan het bedrijfsleven en andere instellingen.

A consortium led by ASTRON is developing important software components for processing the vast amounts of data that the soon-to-be largest radio telescope in the world will produce.

The low-frequency radio telescope NenuFAR will be connected to the international LOFAR telescope, operated by ASTRON, the Netherlands Institute for Radio Astronomy.

The Westerbork Synthesis Radio Telescope (WSRT) has been a powerhouse of science since it began operations in 1968, making more than 50 years of discoveries in radio astronomy happen. Looking forward, we will strengthen our activities in Westerbork on VLBI, GNSS, data releases of the Apertif surveys, and developing next-generation technology for our instruments.

ERIS 2022 is a week-long training in techniques of radio interferometry via lectures and tutorials. This school is the ninth of a series of summer schools sponsored by RadioNet and is hosted by JIVE – Joint Institute for VLBI ERIC & ASTRON – Netherlands Institute for Radio Astronomy. The topics covered by the lectures/tutorials will […]

The Dutch Research Council (ASTRON is part of its institutes organisation) is shocked by the invasion of Russian troops in Ukraine. The news and images of the past few days have made it clear that a peace-loving and free country is being ruthlessly occupied by an aggressive foreign power. NWO empathises with the Ukrainian people in general and its Ukrainian employees and employees with Ukrainian family and friends in particular, and wishes to declare its solidarity with them.

Over a seven year period an international team of scientists has mapped more than a quarter of the northern sky using the Low Frequency Array (LOFAR), a pan-European radio telescope. It reveals an astonishingly detailed radio image of more than 4.4 million objects and a very dynamic picture of our Universe.

Astronomers have observed mysterious flashes in the sky from an unexpected source, a globular cluster in the galaxy M81.

By a stroke of luck, a team led by Dutch PhD student Martijn Oei has discovered a radio galaxy of at least 16 million light-years long.

An international team of astronomers has created one of the largest and most detailed radio maps at megahertz frequencies thanks to Dutch supercomputers. This research, led by Frits Sweijen at Leiden University, has been published in Nature Astronomy on Thursday.