QCEED

Quantum Dot coupling engineering (and dynamic spin decoupling/deep nuclei cooling): 2-dimensional cluster state generation for quantum information processing (QCEED)

Breaking barriers in quantum photonic computation

Photonic quantum computation has the potential to revolutionise technology, but there is a major challenge: creating large-scale, on-demand 2D cluster states of light. These cluster states are essential for building scalable quantum computers. However, current technology cannot reliably generate them at the scale needed for practical use. To solve this, new methods for producing and controlling photons must be developed. The EIC-funded QCEED project aims to overcome this challenge by creating semiconductor quantum dot systems that can emit large-scale 2D cluster states of light. By using advanced techniques like deep nuclei cooling and spin decoupling, QCEED will improve the coherence of these systems. The project will pave the way for scalable quantum photonic computation.