Abstract
Quantum computers have the potential to solve complex problems efficiently. However, to unleash their full capability, complex quantum systems have to be manufactured, manipulated and measured with unprecedented accuracy and precision. Despite the demanding requirements both...
Abstract
In the past, the preparation and selective observation of well-defined states of solid-state quantum systems often relied on their interaction with light. However, light has a series of disadvantages, including large foci and typically weak light-matter coupling. In recent...
Abstract
The NeQuS project aims to establish quantum networks, in which nodes that are located in different research institutes can be linked together by optical photons. The nodes will be based on different hardware, including all major platforms investigated in quantum...
Abstract
Our project aims at implementing two types of solid-state qubits - semiconductor spin qubits and superconducting flux qubits - as well as superconducting readout components. These quantum processor components will all be realized within the same materials platform:...
Abstract
Quantum sensing combines a wide range of technologies to measure physical quantities such as magnetic and electric fields, distances, velocities, forces, and accelerations with a precision that exceeds that of classical detection methods. The most mature system used...
Abstract
The interdisciplinary research project address the challenge of controlling individual quantum objects without disturbing the fragile quantum-mechanical coherence. The aim is to develop ultrafast photodetectors and sources of single entangled photons as well as...
