Pieter-Jan Stas

Entanglement Assisted Non-local Optical Interferometry in a Quantum Network The sensitivity of non-local optical measurements at low light intensities, such as those involved in long baseline telescope arrays, can be improved by using remote entanglement. Here, we demonstrate...

Very excited to share our new preprint is on arXiv: Entanglement Assisted Non-local Optical Interferometry in a Quantum Network! In it, we demonstrate how a quantum network can be used to improve optical telescope array measurements. arxiv.org/abs/2509.09464

Designing Fault-Tolerant Blind Quantum Computation Blind quantum computing (BQC) is a computational paradigm that allows a client with limited quantum capabilities to delegate quantum computations to a more powerful server while keeping both the algor...

The accompanying theory preprint has been posted on ArXiv: arxiv.org/abs/2505.21621! This preprint shows how the techniques demonstrated in the experimental paper can be used and expanded on for efficient blind quantum algorithm design and fault-tolerant blind quantum computing (among other things)!

Hot off the press: our paper on distributed blind computing across a two-node quantum network has been published in Science. Good job to the amazing team! :) science.org/doi/10.1126/...

Universal distributed blind quantum computing with solid-state qubits Blind quantum computing is a promising application of distributed quantum systems, in which a client can perform computations on a remote server without revealing any details of the applied circuit. A...

Our paper on distributed blind quantum computing is out on Science! With a two-node quantum network, we show how a user can remotely run a quantum algorithm on a quantum computer without revealing operations to anyone, including the computer itself. www.science.org/doi/10.1126/...