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Showing 1–9 of 9 results
Advanced filters: Author: Jacob Biamonte Clear advanced filters

  • The race to cash in is draining universities of talent, fracturing the field and closing off avenues of enquiry, warn Jacob D. Biamonte, Pavel Dorozhkin and Igor Zacharov.

    • Jacob D. Biamonte
    • Pavel Dorozhkin
    • Igor Zacharov
    Comments & Opinion
    Nature
    Volume: 573, P: 190-191

  • Barren plateaus are widely considered as one of the main limitations for variational quantum algorithms. This Review summarizes the latest understandings of barren plateaus, indicating its causes, architecture that will suffer from this phenomenon, and discusses strategies that can — and cannot — avoid it.

    • Martín Larocca
    • Supanut Thanasilp
    • M. Cerezo
    Reviews
    Nature Reviews Physics
    Volume: 7, P: 174-189

  • Precise control of quantum systems is important for numerous quantum information tasks, but becomes harder as the system size grows. Dolde et al.use dynamical decoupling techniques to obtain high-fidelity entangled states between electron spins in a nitrogen-vacancy-centre qubit system, with low cross-talk.

    • Florian Dolde
    • Ville Bergholm
    • Jörg Wrachtrup
    Research
    Nature Communications
    Volume: 5, P: 1-9

  • Quantum machine learning software could enable quantum computers to learn complex patterns in data more efficiently than classical computers are able to.

    • Jacob Biamonte
    • Peter Wittek
    • Seth Lloyd
    Reviews
    Nature
    Volume: 549, P: 195-202

  • The dynamics of information within complex networks can be captured by a set of operators where the effect of detachment of a node defines the node-networks entanglement, which can be used as a multiscale centrality measure. Here, the authors show that the nodes with high entanglement centrality, which are critical for information dynamics, are also the ones responsible for keeping the network integrated.

    • Arsham Ghavasieh
    • Massimo Stella
    • Manlio De Domenico
    ResearchOpen Access
    Communications Physics
    Volume: 4, P: 1-10

  • Quantum communication and computing is now in a data-intensive domain where a classical network describing a quantum system seems no longer sufficient to yield a generalization of complex networks methods to the quantum domain. The authors review recent progress into this paradigm shift that drives the creation of a network theory based fundamentally on quantum effects.

    • Jacob Biamonte
    • Mauro Faccin
    • Manlio De Domenico
    ReviewsOpen Access
    Communications Physics
    Volume: 2, P: 1-10