Lise Meitner Lecture 2026 “Gravitational wave astronomy – quo vadis?”
Public talk
- Date: Mar 18, 2026
- Time: 07:00 PM - 08:00 PM (Local Time Germany)
- Speaker: Michèle Heurs
- Leibniz Universität Hannover, Hannover, Germany — Deutsches Zentrum für Astrophysik (DZA), Görlitz, Germany — Deutsches Elektronen-Synchrotron DESY, Zeuthen, Germany
- Location: Friedrich-Alexander-Universität Erlangen-Nürnberg Bismarckstraße 1, 91054 Erlangen
- Room: Audimax
- Host: Deutsche Physikalische Gesellschaft
- Topic: Discussion and debate formats, lectures
Since the first direct detection of gravitational waves (GWs) in 2015, we have opened an entirely new observation window into the Universe (complementary to the electromagnetic spectrum, neutrinos, and cosmic rays), heralding the era of multi-messenger astronomy with GWs. A wealth of scientific insights has already been gained – but so much more is yet to be discovered!
The sensitivity of current GW detectors is so incredible that the
quantum noise of the employed ultra-stable laser light would be
limiting. This necessitates the use of non-classical (“squeezed”) light,
which is already routinely employed in the current (second) generation
of detectors, e.g., aLIGO and AdVirgo. Many additional noise sources,
such as seismic and thermal noise, pose further challenges for future
(third-generation) detectors, e.g., the Einstein Telescope, a planned
underground GW observatory in Europe.
To learn more about our Universe, we must achieve ever-higher detection rates for meaningful GW astronomy, which requires evergreater detection sensitivity and larger detection bandwidth. In my talk, I will introduce the principle of interferometric GW detection, highlight some of the advanced technologies (employed and under development), and shed light on the plans for future interferometric GW observatories.
To learn more about our Universe, we must achieve ever-higher detection rates for meaningful GW astronomy, which requires evergreater detection sensitivity and larger detection bandwidth. In my talk, I will introduce the principle of interferometric GW detection, highlight some of the advanced technologies (employed and under development), and shed light on the plans for future interferometric GW observatories.