European observatories and administrations in dialogue on satellite interference
On Friday 23 January, representatives from radio astronomy observatories and administrations of Germany, France, Italy, the Netherlands, and Sweden, together with members of the Committee on Radio Astronomy Frequencies (CRAF) and the Square Kilometre Array Observatory (SKAO), met at the Paris Observatory to exchange views on the challenges posed by unintended electromagnetic radiation (UEMR) from Low Earth Orbit (LEO) satellite constellations.
The detection of radio bursts from stellar and exoplanetary systems
Building on the expertise of researchers at Paris Observatory – PSL and ASTRON, an international team has developed a novel analysis method capable of uncovering previously undetectable stellar and exoplanetary signals hidden within archival radio-astronomical data.
Improving our understanding of AI and the Universe
Many properties of our Universe remain a mystery due to great observational challenges. Artificial intelligence (AI) is already assisting astronomers in their research into these open questions, and that role is set to grow. To better understand the foundations and future of this interaction, ASTRON and Leiden University are establishing a new research field. Prof. dr. Joeri van Leeuwen and team will develop astrophysics-informed AI, and then use it to uncover new astronomy.
Evidence of a massive stellar storm on a nearby star
An international team of astronomers, led by ASTRON (Netherlands Institute for Radio Astronomy) and the Observatoire de Paris-PSL, have observed the first clear signal of a giant stellar eruption from a star beyond our Solar System. The stellar eruption is analogous to a coronal mass ejection (CME) seen on our Sun, and implies a devasting impact for any planet unlucky enough to orbit the star.
European observatories and administrations in dialogue on satellite interference
© Emma van der Wateren
UEMR is understood as radio waves that likely leak from electronics onboard satellites and are at low levels compared to communication signals, yet are sufficiently strong to affect astronomical observations. Participants discussed the significance of radio astronomy and the ways in which UEMR from satellites can affect the highly sensitive astronomical observations as conducted with today's radio telescopes.
Experts from CRAF and the SKAO reported on dedicated measurements of UEMR, which allow the estimation of its potential impact on radio astronomical observations, and summarised the regulatory context. Administrators contributed their perspectives on various regulatory paths, and underlined the importance of collaboration between the scientific community, industry, and administrations. Ongoing discussions between the industry sector and radio astronomy were also highlighted, with efforts to design future satellites and constellations with due consideration for UEMR.
The meeting was regarded as an opportunity to strengthen connections between the stakeholders and to develop a shared understanding of the impact of the increasing interference from satellite constellations on radio astronomy. Participants acknowledged the importance of radio astronomical research and agreed to remain in active contact to work on solutions.
8th LOFAR Data School
Wed 16 Sep 2026 - Wed 23 Sep 2026
We are happy to announce that the 8th LOFAR Data School (LDS2026) will take place at ASTRON, the Netherlands Institute for Radio Astronomy (Dwingeloo, The Netherlands) from 16 to 23 September 2026. RATIONALE The goal of the school is to assist the participants in the generation and analysis of LOFAR science ready data. The school will cover the […]
