Offer DescriptionThe field of quantum technology (QT) aims to exploit the most exotic consequences of quantum mechanics for real-world applications, and promises massive impacts on fields ranging from communication and cryptography to sensing and computing. Importantly, quantum sensors harness the rapid interactions between quantum systems and their environment. They are expected to detect smaller changes, provide better spatial resolution, or measure physical effects that are not accessible with the sensor technology of today. Indeed, this could lead to imaging of interactions between neurons and improve our understanding of the brain, or mapping of magnetic fields for wider subsea and space exploration. However, it has been challenging to find the balance between control of the quantum state, robustness to noise, signal detection and, importantly, scalability. Thus, there is an ongoing race to discover and characterize new quantum compatible platforms that satisfy these fundamental criteria.In this project, we will explore and develop point defects in semiconductors - imperfections in the material that are often seen as something to avoid - for QT applications. Point defect-based QT facilitates quantum bits based on either the electron spin or photon polarization and is well suited for optical readout using the single photon emitter (SPE) property. Importantly, point defect SPEs can operate at room temperature (RT), in contrast to most other available QT platforms that require milli-kelvin temperatures to function.For more information and how to apply:RequirementsResearch Field Physics Education Level Master Degree or equivalentAdditional InformationWork Location(s)Number of offers available 1 Company/Institute Department of Physics Country Norway GeofieldWhere to apply WebsiteContact CityOslo WebsiteStreetPO box 1072 Blindern Postal CodeNO-0316 E-Mailm.e.bathen@fys.uio.noSTATUS: EXPIRED