QUEST
QUEST is a Horizon Europe Twinning project aimed at amplifying the scientific excellence and innovative capabilities of Eötvös Loránd University through collaboration with esteemed Twinning partners.
The project focuses on developing a quantum reservoir computing system leveraging silicon carbide defect qubits.
This pioneering technology holds the potential to revolutionize computing by increasing computational speed and reducing energy consumption compared to traditional machine learning methods.
QRC-4-ESP
QRC-4-ESP is a project dedicated to developing the world’s leading quantum reservoir computing systems using superconducting qubits and silicon carbide defect qubits.
The project targets significant performance improvements over classical machine learning by combining superconducting qubits for microwave quantum communication with SiC defect qubits for optical applications, enabling advances in quantum communication and sensing technologies.
Lendület
The Lendület project focuses on discovering qubits in various semiconductors, two-dimensional materials, and even macromolecules.
Instead of fabricating these quantum units, the project identifies naturally occurring qubits through advanced computer simulations, exploring their potential for future quantum technologies.
OTKA
The OTKA – In silico study of point defect-based quantum technology applications project focuses on advancing point defect qubit research through computer simulations.
The project develops methods that combine ab initio electronic structure calculations with Hamiltonian-based numerical modelling to study the electronic and spin properties of defects and the environmental effects that cause decoherence.
Its aim is to support the design of semiconductor quantum devices and open new possibilities for future quantum applications.
Quantum Information National Laboratory
The Quantum Information National Laboratory boosts the research and development activity of the Hungarian scientific community within the unfolding second quantum revolution which aims at the exploitation of the enormous advancements in our ability to detect and manipulate single quanta for new kinds of applications.
