Mission-driven programme developing fault-tolerant quantum computing hardware and algorithms to solve life-science chemical and biological problems. 📍Niels Bohr Institute, University of Copenhagen, Denmark. https://nqcp.ku.dk/https://bsky.app/profile/nqcp-nbi.bsky.socialhttps://bsky.app/profile/nqcp-nbi.bsky.social/post/3ml45qtfp6k2tCheck out our preprint on quantum simulation of nanographenes, Trotter error cancellation and how to exploit this error cancellation to efficiently calculate energy differences between low-lying electronic eigenstates. arxiv.org/abs/2605.00745 In collaboration with researches at @riverlane.com https://arxiv.org/abs/2605.0074505 May 2026 12:10 +0000at://did:plc:p5vyuafwhkt45ibqplu5oyeq/app.bsky.feed.post/3ml45qtfp6k2thttps://bsky.app/profile/nqcp-nbi.bsky.social/post/3mdmz5fqx2s2xCheck 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: https://pubs.rsc.org/en/Content/ArticleLanding/2025/DD/D5DD00445D30 Jan 2026 09:41 +0000at://did:plc:p5vyuafwhkt45ibqplu5oyeq/app.bsky.feed.post/3mdmz5fqx2s2xhttps://bsky.app/profile/nqcp-nbi.bsky.social/post/3mdixfn67j22hA 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 https://arxiv.org/abs/2601.1791928 Jan 2026 18:59 +0000at://did:plc:p5vyuafwhkt45ibqplu5oyeq/app.bsky.feed.post/3mdixfn67j22hhttps://bsky.app/profile/nqcp-nbi.bsky.social/post/3m73q5j3ups26Don'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: https://journals.aps.org/pra/abstract/10.1103/p8wj-gplb #nqcp #quantumcomputing #pathfinderphase03 Dec 2025 15:04 +0000at://did:plc:p5vyuafwhkt45ibqplu5oyeq/app.bsky.feed.post/3m73q5j3ups26https://bsky.app/profile/nqcp-nbi.bsky.social/post/3m6f6ddkj5g26A 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: https://www.nature.com/articles/s42005-025-02365-x #nqcp #quantumcomputing #pathfinderphase24 Nov 2025 15:46 +0000at://did:plc:p5vyuafwhkt45ibqplu5oyeq/app.bsky.feed.post/3m6f6ddkj5g26https://bsky.app/profile/nqcp-nbi.bsky.social/post/3m6em6yhxid24Check out the latest research with Mark Kamper on "computational discovery and experimental validation of high-refractive index HfS2 nanoresonators." Find the study here: https://www.science.org/doi/full/10.1126/sciadv.adw9339 #nqcp #quantumcomputing #pathfinderphase24 Nov 2025 10:22 +0000at://did:plc:p5vyuafwhkt45ibqplu5oyeq/app.bsky.feed.post/3m6em6yhxid24https://bsky.app/profile/nqcp-nbi.bsky.social/post/3m2r2iqhsok2jHello 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 #ucph09 Oct 2025 11:29 +0000at://did:plc:p5vyuafwhkt45ibqplu5oyeq/app.bsky.feed.post/3m2r2iqhsok2j