Point defects in crystals are the solid-state analog to trapped ions. Thus these “quantum defects”\, which can be integra ted into solid-state devices\, have gained interest as quantum sensors and qubit candidates for scalable quantum networks. In this talk\, I will introduce some of the basic quantum defect properties desirable f or quantum technologies. I will highlight my own group’s efforts at understanding and controlling the properties of defects in diamond inc luding (1) synthesis\, frequency and emission control of deep-level va cancy complexes in diamond and (2) properties of shallow-level donors in ZnO\, including single donors and intentionally synthesized donors in ZnO.
\nThis event starts at 3:30pm with refreshments\, follo wed at 3:45pm by a short presentation titled "Atom-by-atom engineering of impurity energy levels on semiconductor surfaces"\, by Keenan Smit h (Brar group). The invited presentation starts at 4pm.
URL:https://www.physics.wisc.edu/events/?id=8836 END:VEVENT END:VCALENDAR