Projects
Diamond devices for photocurrent-detected magnetic resonance of diamond spin qubits. Hasselt University
Electrically Read Diamond Spin Qubits Entanglement Hasselt University
Error-Correcting Microarchitectures for Spin Qubit Quantum Computing KU Leuven
The PhD position is a research position inside a larger project of imec vzw. The aim of the project is to build large-scale quantum computing systems of the future and use these for potential applications. The place of the PhD in this project is to explore existing silicon quantum computing device prototypes, benchmark their performance when implemented in large-scale architectures and then design efficient strategies to implement basic ...
Experimental understanding of noise sources in Silicon MOS devices at cryogenic temperatures for spin qubit applications KU Leuven
Quantum computing embodies the promise of the future, and has the potential to revolutionize our world with its significantly accelerated computational capabilities. This nascent technology is not meant to replace today’s computers but rather solve problems intractable by current computation methods. Analogous to the classical computer the quantum computer is built using basic blocks called quantum bits and performs algorithms using quantum ...
Scalable Electrically Readout Diamond Spin Qubit Technology for Single Molecule Quantum Imagers Hasselt University
Quantum Protocol Implementation with Si/SiGe Spin Qubit KU Leuven
Research into upscaling quantum computers based on Si/SiGe Spin Qubits. More specifically, research into coupling and readout of multiple qubits. For this new designs will be needed, and they will be tested both in room temperature and milli-kelvin. The goal is to aid the creation of usable quantum computers, who are able to do computations using large amounts of qubits.
Optically Addressable Trityl-Radical-based Molecular Qubits (OPTRIBITS) University of Antwerp
Spin Driving in Quantum-Coherent Materials Hasselt University
Silicon Spin Quantum Processor with Advanced Integration KU Leuven
Quantum computers are expected to tackle many real-life problems that are unsolvable by classical computers. Imec is working on the essential building block of quantum computers, the qubit. Qubits are short for quantum bits and are similar to classical bits. Meanwhile, they are coherent quantum two-level systems, so that we can utilize their superposition and entanglement to boost computing power. This PhD will focus on a specific quantum ...