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| [[publications#2020|2020]] | [[publications#2020|2020]] | ||
| [[publications#2021|2021]] | [[publications#2021|2021]] | ||
| + | [[publications#2022|2022]] | ||
| [[publications#PhD Theses|PhD Theses]] | [[publications#PhD Theses|PhD Theses]] | ||
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| - | ==== 2021 ==== | + | ==== 2022 ==== |
| - | //Continuous majorization in quantum phase space//,\\ | + | //Gaussian work extraction from random Gaussian states is nearly impossible//,\\ |
| + | U. Singh, J. K. Korbicz, and N. J. Cerf\\ | ||
| + | [[https://arxiv.org/abs/2212.03492 |arXiv:2212.03492 [quant-ph]]] | ||
| + | |||
| + | //Interferometric measurement of the quadrature coherence scale using two replicas of a quantum optical state//,\\ | ||
| + | C. Griffet, M. Arnhem, S. De Bièvre, N. J. Cerf\\ | ||
| + | [[https://arxiv.org/abs/2211.12992 |arXiv:2211.12992 [quant-ph]]] | ||
| + | |||
| + | //Majorization ladder in bosonic Gaussian channels//,\\ | ||
| Z. Van Herstraeten, M. G. Jabbour, and N. J. Cerf\\ | Z. Van Herstraeten, M. G. Jabbour, and N. J. Cerf\\ | ||
| + | [[https://arxiv.org/abs/2209.08384 |arXiv:2209.08384 [quant-ph]]]\\ | ||
| + | invited contribution to //Jonathan P. Dowling Memorial Special Issue: The Second Quantum Revolution//, edited by Zixin Huang and Pieter Kok, Special Topic Collection, AVS Quantum Science. | ||
| + | |||
| + | //Boson bunching is not maximized by indistinguishable particles//,\\ | ||
| + | B. Seron, L. Novo, and N. J. Cerf (submitted)\\ | ||
| + | [[https://arxiv.org/abs/2203.01306 |arXiv:2203.01306 [quant-ph]]] | ||
| + | |||
| + | //Multicopy observables for the detection of optically nonclassical states//,\\ | ||
| + | M. Arnhem, C. Griffet, and N. J. Cerf, Phys. Rev. A 106 (2022) 043705.\\ | ||
| + | [[https://doi.org/10.1103/PhysRevA.106.043705 |doi: 10.1103/PhysRevA.106.043705]], [[https://arxiv.org/abs/2205.12040 |arXiv:2205.12040 [quant-ph]]]\\ | ||
| + | {{ :publications:2022-physreva.106.043705.pdf |PDF file}} | ||
| + | |||
| + | //Continuous majorization in quantum phase space//,\\ | ||
| + | Z. Van Herstraeten, M. G. Jabbour, and N. J. Cerf (submitted to Quantum).\\ | ||
| [[https://arxiv.org/abs/2108.09167 |arXiv:2108.09167 [quant-ph]]] | [[https://arxiv.org/abs/2108.09167 |arXiv:2108.09167 [quant-ph]]] | ||
| + | |||
| + | ==== 2021 ==== | ||
| //Quantum Wigner entropy//,\\ | //Quantum Wigner entropy//,\\ | ||
| Line 208: | Line 233: | ||
| SIAM Journal on Computing, 44(5):1550--1572 (2015).\\ | SIAM Journal on Computing, 44(5):1550--1572 (2015).\\ | ||
| [[http://dx.doi.org/10.1137/130928273|DOI]], [[http://arxiv.org/abs/1204.1505|arxiv:1204.1505 [quant-ph]]] | [[http://dx.doi.org/10.1137/130928273|DOI]], [[http://arxiv.org/abs/1204.1505|arxiv:1204.1505 [quant-ph]]] | ||
| - | |||
| //Relative Discrepancy does not separate Information and Communication Complexity//,\\ | //Relative Discrepancy does not separate Information and Communication Complexity//,\\ | ||
| Line 282: | Line 306: | ||
| //Information transmission in bosonic memory channels using Gaussian matrix-product states as near-optimal symbols//,\\ | //Information transmission in bosonic memory channels using Gaussian matrix-product states as near-optimal symbols//,\\ | ||
| J. Schäfer, E. Karpov, and N. J. Cerf\\ | J. Schäfer, E. Karpov, and N. J. Cerf\\ | ||
| - | AIP ConferenceProceedings, 1633, 192 (2014)\\ | + | AIP Conference Proceedings, 1633, 192 (2014).\\ |
| + | Proc. of the 11th International Conference on Quantum Communication (QCMC), Measurement and Computation, Vienna, 2012, edited by H.-J. Schmiedmayer and P. Walther.\\ | ||
| [[ https://doi.org/10.1063/1.4903134| doi:10.1063/1.4903134]]\\ | [[ https://doi.org/10.1063/1.4903134| doi:10.1063/1.4903134]]\\ | ||
| {{ :publications:2014-aip-1633-192.pdf |PDF file}} | {{ :publications:2014-aip-1633-192.pdf |PDF file}} | ||
| Line 288: | Line 313: | ||
| //The Holy Grail of quantum optical communication//,\\ | //The Holy Grail of quantum optical communication//,\\ | ||
| R.Garcia-Patron, C. Navarrete-Benlloch, S. Lloyd, J. H. Shapiro, and N. J. Cerf\\ | R.Garcia-Patron, C. Navarrete-Benlloch, S. Lloyd, J. H. Shapiro, and N. J. Cerf\\ | ||
| - | AIP ConferenceProceedings, 1633, 109 (2014)\\ | + | AIP Conference Proceedings, 1633, 109 (2014).\\ |
| + | Proc. of the 11th International Conference on Quantum Communication (QCMC), Measurement and Computation, Vienna, 2012, edited by H.-J. Schmiedmayer and P. Walther.\\ | ||
| [[ https://doi.org/10.1063/1.4903108| doi:10.1063/1.4903108]]\\ | [[ https://doi.org/10.1063/1.4903108| doi:10.1063/1.4903108]]\\ | ||
| {{ :publications:2014-aip-1633-109.pdf |PDF file}} | {{ :publications:2014-aip-1633-109.pdf |PDF file}} | ||
| Line 298: | Line 324: | ||
| ACM Transactions on Computation Theory, 5(3):11:1-11:33 (2013).\\ | ACM Transactions on Computation Theory, 5(3):11:1-11:33 (2013).\\ | ||
| [[http://dx.doi.org/10.1145/2493252.2493256|DOI]] | [[http://dx.doi.org/10.1145/2493252.2493256|DOI]] | ||
| - | |||
| - | //Gaussian classical capacity of Gaussian quantum channels//,\\ | ||
| - | E. Karpov, J. Schäfer, R. Garcia-Patron, O. V. Pilyavets, and N. J. Cerf\\ | ||
| - | Nanosystems: Physics, Chemistry, Mathematics 4, 496 (2013).\\ | ||
| - | {{:publications:2013-NPCM-4-496.pdf|PDF file}} | ||
| //A strong direct product theorem for quantum query complexity//,\\ | //A strong direct product theorem for quantum query complexity//,\\ | ||
| Line 314: | Line 335: | ||
| {{:publications:2013-PRL-111-030503.pdf|PDF file}}, {{publications:2013-PRL-111-030503-SuppMat.pdf|Suppl. Mat.}}, | {{:publications:2013-PRL-111-030503.pdf|PDF file}}, {{publications:2013-PRL-111-030503-SuppMat.pdf|Suppl. Mat.}}, | ||
| [[http://arxiv.org/abs/1303.4939|arXiv:1303.4939 [quant-ph]]] | [[http://arxiv.org/abs/1303.4939|arXiv:1303.4939 [quant-ph]]] | ||
| + | |||
| + | //Gaussian classical capacity of Gaussian quantum channels//,\\ | ||
| + | E. Karpov, J. Schäfer, R. Garcia-Patron, O. V. Pilyavets, and N. J. Cerf\\ | ||
| + | Nanosystems: Physics, Chemistry, Mathematics 4, 496 (2013).\\ | ||
| + | {{:publications:2013-NPCM-4-496.pdf|PDF file}} | ||
| //Explicit relation between all lower bound techniques for quantum query complexity//,\\ | //Explicit relation between all lower bound techniques for quantum query complexity//,\\ | ||
| Line 1411: | Line 1437: | ||
| === PhD Theses === | === PhD Theses === | ||
| + | |||
| + | //Detecting nonclassicality and estimating parameters in quantum phase space//, \\ | ||
| + | M. Arnhem, Université Libre de Bruxelles (2022)\\ | ||
| + | {{ :publications:thesis_matthieu_arnhem_2022.pdf |PDF file}} | ||
| //Majorization theoretical approach to quantum uncertainty: From Wigner entropy to Gaussian bosonic channels//, \\ | //Majorization theoretical approach to quantum uncertainty: From Wigner entropy to Gaussian bosonic channels//, \\ | ||
| Line 1483: | Line 1513: | ||
| === Ms Theses === | === Ms Theses === | ||
| + | |||
| + | //Majorization relations and quantum entanglement//,\\ | ||
| + | Serge Deside, Université Libre de Bruxelles (2022).\\ | ||
| + | {{ :publications:msthesis_-_serge_deside_16_08_22_.pdf |PDF file}} | ||
| //Additive uncertainty relations in quantum optics//,\\ | //Additive uncertainty relations in quantum optics//,\\ | ||