Complex networks from classical to quantum

@article{Biamonte2017ComplexNF,
  title={Complex networks from classical to quantum},
  author={Jacob D. Biamonte and Mauro Faccin and Manlio De Domenico},
  journal={Communications Physics},
  year={2017},
  volume={2},
  pages={1-10}
}
  • Jacob D. Biamonte, Mauro Faccin, Manlio De Domenico
  • Published 2017
  • Mathematics, Physics, Computer Science
  • Communications Physics
  • Recent progress in applying complex network theory to problems in quantum information has resulted in a beneficial cross-over. Complex network methods have successfully been applied to transport and entanglement models while information physics is setting the stage for a theory of complex systems with quantum information-inspired methods. Novel quantum induced effects have been predicted in random graphs—where edges represent entangled links—and quantum computer algorithms have been proposed to… CONTINUE READING

    Figures and Topics from this paper.

    Explore key concepts

    Links to highly relevant papers for key concepts in this paper:

    Citations

    Publications citing this paper.
    SHOWING 1-10 OF 20 CITATIONS

    Harnessing symmetry to control quantum transport

    VIEW 1 EXCERPT
    CITES BACKGROUND

    A Multilayer Network Approach to Quantum Computing

    VIEW 1 EXCERPT
    CITES BACKGROUND

    Towards quantum advantage for topological data analysis

    VIEW 1 EXCERPT
    CITES BACKGROUND

    References

    Publications referenced by this paper.
    SHOWING 1-10 OF 137 REFERENCES

    Entanglement percolation in quantum complex networks.

    VIEW 3 EXCERPTS

    Quantum–classical transitions in complex networks

    VIEW 2 EXCERPTS

    Complex quantum network geometries: Evolution and phase transitions.

    Chiral quantum walks

    VIEW 4 EXCERPTS

    Phase transition of light on complex quantum networks.