FYI, ggfs an die AG in Ulm weiterleiten ---------- Forwarded message --------- From: *Donatella Cassettari* <dc43@st-andrews.ac.uk> Date: Fri, May 9, 2025 at 3:02 PM Subject: MAWI Student-led Meeting on Quantum Technology To: standrews-conference@mawi-net.eu <standrews-conference@mawi-net.eu> Dear All, We are happy to announce the *MAWI Student-led Meeting on Quantum Technology: from Theory to Applications*, which will be held in *St Andrews, Scotland, on 14-16 July 2025*. We would be grateful if you could advertise this to people in your group and to anyone who may be interested. The meeting is organized by the PhD students of the MAWI (Matter Wave Interferometers) Doctoral Network. Experts in the field will give talks on their work as well as introductory lectures on a wide range of topics: atom interferometry, atomtronics, quantum sensors, quantum simulation, quantum control, and applications of machine learning to physics. Participants outside the consortium are warmly welcome as it will offer a platform for young researchers to present their work and to engage with peers, with ample space for discussion on perspectives and recent results from the point of view of early-stage researchers. Every participant will have the opportunity to present their research, either through a contributed talk or a poster. The application deadline is *Monday 26th May*. More information about the programme, confirmed speakers and the application form can be found on _https://mawi-net.eu/st-andrews-conference/_ . Best regards, Renzo Testa and Donatella Cassettari ============================== MAWI (Matter-Wave Interferometers) is an European Doctoral Network within the Marie Sklodowska Curie Action (grant number 101073088 - MAWI). The network is focusing on ultra-cold atoms, matter waves, quantum sensing, and Atomtronics, and their application to quantum technologies. The goal of the MAWI project is to train young researchers in the emerging fields of matter-wave interferometry and quantum sensors based on interferometric schemes. The striking progress in the manipulation of matter-waves at ultracold temperatures makes very realistic the possibility that a new generation of interferometers is implemented with ultracold atoms within a few years, with sensitivities and performances such to make them not only promising, but actually usable both in fundamental science and in technological applications. This progress is deeply related to the similarly remarkable advances in the field of Atomtronics, a new field at the frontier of matter-wave optics seeking to realize atomic circuits in which ultracold atoms are manipulated in versatile optical or magnetic guides.