Articles – QuantHEP

Quantum Fisher information and multipartite entanglement in spin-1 chains

Rafaela — Sat, 28 Oct 2023 14:18:00 +0000

F. Dell’Anna, S. Pradhan, C. Degli Esposti Boschi, E. Ercolessi, Quantum Fisher information and multipartite entanglement in spin-1 chains, Phys. Rev. B 108, 144414 (2023). Get PDF

S. Pradhan F. Dell’Anna. Quantum Fisher information and multipartite entanglement in spin-1 chains. Phys. Rev. B 108, 144414 , 2023.

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@article{f. dell’anna2023quantum,
  title={Quantum Fisher information and multipartite entanglement in spin-1 chains},
  author={F. Dell’Anna, S. Pradhan, C. Degli Esposti Boschi, E. Ercolessi},
  journal={Phys. Rev. B 108, 144414 },
  year={2023}
}

The post Quantum Fisher information and multipartite entanglement in spin-1 chains appeared first on QuantHEP.

Bayesian Optmization for QAOA

Rafaela — Mon, 16 Oct 2023 18:03:00 +0000

S. Tibaldi, D. Vodola, E. Tignone, E. Ercolessi, Bayesian Optmization for QAOA, IEEE Transactions on Quantum Engineering 4, 3102611 (2023). Get PDF

D. Vodola S. Tibaldi. Bayesian Optmization for QAOA. IEEE Transactions on Quantum Engineering 4, 3102611, 2023.

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@article{s. tibaldi2023bayesian,
  title={Bayesian Optmization for QAOA},
  author={S. Tibaldi, D. Vodola, E. Tignone, E. Ercolessi},
  journal={IEEE Transactions on Quantum Engineering 4, 3102611},
  year={2023}
}

The post Bayesian Optmization for QAOA appeared first on QuantHEP.

(2+1)D SU(2) Yang-Mills Lattice Gauge Theory at finite density via tensor networks

Rafaela — Tue, 18 Jul 2023 15:58:00 +0000

G. Cataldi, G. Magnifico, P. Silvi, S. Montangero, (2+1)D SU(2) Yang-Mills Lattice Gauge Theory at finite density via tensor networks, arXiv:2307.09396 (2023). Get PDF

G. Magnifico G. Cataldi. (2+1)D SU(2) Yang-Mills Lattice Gauge Theory at finite density via tensor networks. arXiv:2307.09396, 2023.

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@article{g. cataldi2023(2+1)d,
  title={(2+1)D SU(2) Yang-Mills Lattice Gauge Theory at finite density via tensor networks},
  author={G. Cataldi, G. Magnifico, P. Silvi, S. Montangero},
  journal={arXiv:2307.09396},
  year={2023}
}

The post (2+1)D SU(2) Yang-Mills Lattice Gauge Theory at finite density via tensor networks appeared first on QuantHEP.

Quantum Computing for High-Energy Physics: State of the Art and Challenges. Summary of the QC4HEP Working Group

Rafaela — Thu, 06 Jul 2023 16:04:00 +0000

A. D. Meglio, K. Jansen, I. Tavernelli, C. Alexandrou, S. Arunachalam, C. W. Bauer, K. Borras, S. Carrazza, A. Crippa, V. Croft, R. Putter, A. Delgado, V. Dunjko, D. J. Egger, E. Fernandez-Combarro, E. Fuchs, L. Funcke, D. Gonzalez-Cuadra, M.Grossi, J. C. Halimeh, Z.Holmes, S. Kuhn, D. Lacroix, R. Lewis, D. Lucchesi, M. L. Martinez, F. Meloni, A. Mezzacapo, S. Montangero, L. Nagano, V. Radescu, E. R. Ortega, A. Roggero, J. Schuhmacher, J. Seixas, P. Silvi, P. Spentzouris, F. Tacchino, K. Temme, K. Terashi, J. Tura, C. Tuysuz, S. Vallecorsa, U. Wiese, S. Yoo, J. Zhang, Quantum Computing for High-Energy Physics: State of the Art and Challenges. Summary of the QC4HEP Working Group, arXiv:2307.03236 (2023). Get PDF

K. Jansen A. D. Meglio, S. Arunachalam rou, E. Fuchs ez-Combarro. Quantum Computing for High-Energy Physics: State of the Art and Challenges. Summary of the QC4HEP Working Group. arXiv:2307.03236, 2023.

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@article{a. d. meglio2023quantum,
  title={Quantum Computing for High-Energy Physics: State of the Art and Challenges. Summary of the QC4HEP Working Group},
  author={A. D. Meglio, K. Jansen, I. Tavernelli, C. Alexandrou, S. Arunachalam, C. W. Bauer, K. Borras, S. Carrazza, A. Crippa, V. Croft, R. Putter, A. Delgado, V. Dunjko, D. J. Egger, E. Fernandez-Combarro, E. Fuchs, L. Funcke, D. Gonzalez-Cuadra, M.Grossi, J. C. Halimeh, Z.Holmes, S. Kuhn, D. Lacroix, R. Lewis, D. Lucchesi, M. L. Martinez, F. Meloni, A. Mezzacapo, S. Montangero, L. Nagano, V. Radescu, E. R. Ortega, A. Roggero, J. Schuhmacher, J. Seixas, P. Silvi, P. Spentzouris, F. Tacchino, K. Temme, K. Terashi, J. Tura, C. Tuysuz, S. Vallecorsa, U. Wiese, S. Yoo, J. Zhang},
  journal={arXiv:2307.03236},
  year={2023}
}

The post Quantum Computing for High-Energy Physics: State of the Art and Challenges. Summary of the QC4HEP Working Group appeared first on QuantHEP.

Hamiltonians and gauge-invariant Hilbert space for lattice Yang-Mills-like theories with finite gauge group

Rafaela — Tue, 20 Jun 2023 15:18:00 +0000

A. Mariani, S. Pradhan, E. Ercolessi, Hamiltonians and gauge-invariant Hilbert space for lattice Yang-Mills-like theories with finite gauge group, Physical Review D 107, 114513 (2023). Get PDF

S. Pradhan A. Mariani. Hamiltonians and gauge-invariant Hilbert space for lattice Yang-Mills-like theories with finite gauge group. Physical Review D 107, 2023.

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@article{a. mariani2023hamiltonians,
  title={Hamiltonians and gauge-invariant Hilbert space for lattice Yang-Mills-like theories with finite gauge group},
  author={A. Mariani, S. Pradhan, E. Ercolessi},
  journal={Physical Review D 107},
  year={2023}
}

The post Hamiltonians and gauge-invariant Hilbert space for lattice Yang-Mills-like theories with finite gauge group appeared first on QuantHEP.

Adiabatic Quantum Algorithm for Multijet Clustering in High Energy Physics

Rafaela — Tue, 13 Jun 2023 20:35:00 +0000

D. Pires, Y. Omar, J. Seixas, Adiabatic Quantum Algorithm for Multijet Clustering in High Energy Physics, Physics Letters B 843, 138000 (2023). Get PDF

D. Pires, Y. Omar, J. Seixas. Adiabatic Quantum Algorithm for Multijet Clustering in High Energy Physics. Physics Letters B 843: 138000, 2023.

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@article{d. pires 2023adiabatic,
  title={Adiabatic Quantum Algorithm for Multijet Clustering in High Energy Physics},
  author={D. Pires and Y. Omar and J. Seixas},
  journal={Physics Letters B 843},
  year={2023},
  pages={138000}
}

The post Adiabatic Quantum Algorithm for Multijet Clustering in High Energy Physics appeared first on QuantHEP.

Towards Quantum Simulation of Bound States Scattering

Rafaela — Fri, 12 May 2023 09:35:49 +0000

M. Turco, G. M. Quinta, J. Seixas, Y. Omar, Towards Quantum Simulation of Bound States Scattering, arXiv:2305.07692 (2023). Get PDF

M. Turco, G. M. Quinta, J. Seixas, Y. Omar. Towards Quantum Simulation of Bound States Scattering. arXiv:2305.07692, 2023.

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@article{m. turco 2023towards,
  title={Towards Quantum Simulation of Bound States Scattering},
  author={M. Turco and G. M. Quinta and J. Seixas and Y. Omar},
  journal={arXiv:2305.07692},
  year={2023}
}

The post Towards Quantum Simulation of Bound States Scattering appeared first on QuantHEP.

Dimensional reduction of the Dirac equation in arbitrary spatial dimensions

Rafaela — Sat, 08 Apr 2023 15:30:00 +0000

D. Lonigro, R. Maggi, G. Angelone, E. Ercolessi, P. Facchi, G. Marmo, S. Pascazio, F. V. Pepe, Dimensional reduction of the Dirac equation in arbitrary spatial dimensions, The European Physical Journal Plus 138, 324 (2023). Get PDF

R. Maggi D. Lonigro. Dimensional reduction of the Dirac equation in arbitrary spatial dimensions. The European Physical Journal Plus 138, 2023.

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@article{d. lonigro2023dimensional,
  title={Dimensional reduction of the Dirac equation in arbitrary spatial dimensions},
  author={D. Lonigro, R. Maggi, G. Angelone, E. Ercolessi, P. Facchi, G. Marmo, S. Pascazio, F. V. Pepe},
  journal={The European Physical Journal Plus 138},
  year={2023}
}

The post Dimensional reduction of the Dirac equation in arbitrary spatial dimensions appeared first on QuantHEP.

Dimensional reduction of the Dirac theory

Rafaela — Wed, 15 Feb 2023 08:18:00 +0000

G. Angelone, E. Ercolessi, P. Facchi, D. Lonigro, R. Maggi, G. Marmo, S. Pascazio, F. V. Pepe, Dimensional reduction of the Dirac theory, J. Phys. A56, 065201 (2023). Get PDF

E. Ercolessi G. Angelone. Dimensional reduction of the Dirac theory. J. Phys. A56, 2023.

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@article{g. angelone2023dimensional,
  title={Dimensional reduction of the Dirac theory},
  author={G. Angelone, E. Ercolessi, P. Facchi, D. Lonigro, R. Maggi, G. Marmo, S. Pascazio, F.V. Pepe},
  journal={J. Phys. A56},
  year={2023}
}

The post Dimensional reduction of the Dirac theory appeared first on QuantHEP.

Unsupervised and supervised learning of interacting topological phases from single-particle correlation functions

Rafaela — Thu, 19 Jan 2023 14:55:00 +0000

S. Tibaldi, G. Magnifico, D. Vodola, E. Ercolessi, Unsupervised and supervised learning of interacting topological phases from single-particle correlation functions, SciPost Phys. 14, 005 (2023). Get PDF

G. Magnifico S. Tibaldi. Unsupervised and supervised learning of interacting topological phases from single-particle correlation functions. SciPost Phys. 14, 005, 2023.

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@article{s. tibaldi2023unsupervised,
  title={Unsupervised and supervised learning of interacting topological phases from single-particle correlation functions},
  author={S. Tibaldi, G. Magnifico, D. Vodola, E. Ercolessi},
  journal={SciPost Phys. 14, 005},
  year={2023}
}

The post Unsupervised and supervised learning of interacting topological phases from single-particle correlation functions appeared first on QuantHEP.