Novo Nordisk Foundation Quantum Computing Programme (NQCP)

Check out our latest research with Marcel David Fabian, Nina Glaser and Gemma Clare Solomon, titled: "The PPP model – a minimum viable parametrisation of conjugated chemistry for modern computing applications".

You can find the paper here:
pubs.rsc.org/en/Content/A...

Colour Centre Formation in Silicon-On-Insulator for On-Chip Photonic Integration Colour centres in silicon have great potential as single photon sources for quantum technologies. Some of them - like the T centre - also possess optically-active spins that enable spin-photon interfa...

A key focus of our photonic pilot line in 2025 was developing capabilities to form and control colour centers in silicon: our quantum emitters! Our project exploring ex-situ generation methods delivered very fruitful results, now wrapped up in a paper just published online: arxiv.org/abs/2601.17919

Don't miss Gabriela Oliveira's first PhD paper (supervised by Nina Glaser): "Quantum block Krylov subspace projector algorithm for computing low-lying eigenenergies," now published in Physical Review A.
Read it here: journals.aps.org/pra/abstract...

#nqcp #quantumcomputing #pathfinderphase

Effective equilibrium theory of quantum light-matter interaction in cavities for extended systems and the long wavelength approximation - Communications Physics The hybrid behavior of strongly interacting light and matter in cavities can be engineered by tailoring the cavity parameters, but simulating such systems is hard due to the complexity of the matter…

A recent publication by Mark Kamper and colleagues that delves into formulating an effective, non-perturbative approach for low-dimensional crystals situated within a Fabry-Perot cavity.

You can find more details at:
www.nature.com/articles/s42...

#nqcp #quantumcomputing #pathfinderphase

Computational discovery and experimental validation of high–refractive index HfS2 nanoresonators Computational discovery of high-index materials leads to HfS2 nanodisks that control light at the nanoscale.

Check out the latest research with Mark Kamper on "computational discovery and experimental validation of high-refractive index HfS2 nanoresonators."

Find the study here:

www.science.org/doi/full/10....

#nqcp #quantumcomputing #pathfinderphase

A Monte Carlo approach to bound Trotter error Trotter product formulas are a natural and powerful approach to perform quantum simulation. However, the error analysis of product formulas is challenging, and their cost is often overestimated. It is...

In a new paper today with @aleksei-quantum.bsky.social and @abaysmidt.bsky.social, we demonstrate a practical numerical approach to provide tight bounds on Trotter error.

scirate.com/arxiv/2510.1...

Fault-Tolerant Quantum Simulation of Generalized Hubbard Models Tile Trotterization is developed as an efficient method to simulate arbitrary lattice Hubbard and extended Hubbard models in early fault tolerance, and numerical methods are applied to more accurately...

👏 Well done to @nickblunt.bsky.social, @abaysmidt.bsky.social et al for a new @prxquantum.bsky.social paper on 'Tile Trotterization', bringing us closer to simulating superconductors and other states of matter:

journals.aps.org/prxquantum/a...

🧵1/2 #QEC

Hello world! NQCP is on BlueSky - who are we? We're building a fault-tolerant quantum computer at the Niels Bohr Institute, and that's going to take a while, so keep up with us here for scientific publications and other updates.

#quantum #quantumcomputing #nqcp #pathfinderphase #ucph