The field of matter-wave interferometry has emerged as a highly promising interdisciplinary domain at the intersection of fundamental science, quantum technologies, photonics, and the European semiconductor industry. The primary objectives of MAWI are to leverage the precise control of ultracold quantum matter to develop guided matter-wave interferometers and to train young researchers in the rapidly evolving fields of matter-wave interferometry and quantum sensors based on interferometric schemes.
MAWI focuses on advancing novel quantum sensing devices, with the potential to enhance sensitivity by several orders of magnitude compared to existing technologies. Achieving this goal requires equipping the next generation of "quantum interferometry researchers" with a broad skill set, spanning fundamental and applied science, experimental development, and modeling—while fostering strong connections with industry and emerging technological trends.
Our training network has recruited 10 Doctoral Candidates (DCs), who have already commenced their research. To achieve the ultimate goal of developing a new class of fully integrated cold-atom quantum devices, an interdisciplinary skill set is essential. To this end, two focused and highly successful Schools have been organized, covering topics ranging from the theory of quantum interferometers to machine learning and quantum computing. The PhD projects are progressing well, and overall network management is proceeding as planned, with the exception of some delays in recruitment.