Abstract
Recent breakthroughs in the manipulation of complex quantum materials—particul arly through the fabrication of atomically thin films—have opened new av enues for controlling exotic electronic phenomena via nanoscale engineerin g. Among these\, the development of twisted van der Waals heterostructures stands out as a transformative approach\, enabling access to correlated a nd topological quantum states with high tunability. In this talk\, I will present our recent advances in ultra-high vacuum (UHV)-based fabrication t echniques that enable the realization of atomically clean\, high-quality 2 D heterostructures. These methods not only ensure the formation of ultra-p ure interfaces free from environmental and process-induced contamination\, but also allow for the direct nanofabrication of devices under UHV condit ions. This integrated approach is key for preserving delicate quantum prop erties\, particularly in systems such as superconductors and magnetic 2D l ayers. I will discuss how these techniques contribute to a deeper understa nding of emergent quantum phenomena and open new possibilities for next-ge neration quantum electronic devices.
Zoom< /strong>: 688 4227 2214 (https://tu-dresden.zoom-x.de/j/6 8842272214?pwd=2nPGt3aESuZVlyhMAyv96TZRxkU9F9.1)\, Passcode: IFMP2024-5
DTSTAMP:20260429T022613Z CREATED:20250528T053948Z LAST-MODIFIED:20250623T053612Z END:VEVENT END:VCALENDAR