- G. De Palma, A. Mari, V. Giovannetti, “Classical capacity of Gaussian thermal memory channels”, Phys. Rev. A, 90, № 4, 2014, 042312
- Gerardo Adesso, “Generic Entanglement and Standard Form forN-Mode Pure Gaussian States”, Phys. Rev. Lett., 97, № 13, 2006, 130502
- C. N. Gagatsos, O. Oreshkov, N. J. Cerf, “Majorization relations and entanglement generation in a beam splitter”, Phys. Rev. A, 87, № 4, 2013, 042307
- Robert König, Graeme Smith, “Limits on classical communication from quantum entropy power inequalities”, Nature Photon, 7, № 2, 2013, 142
- Kabgyun Jeong, Hun Hee Lee, Youngrong Lim, “Universal upper bounds for Gaussian information capacity”, Annals of Physics, 407, 2019, 46
- Rahul Bhadani, Ivan B. Djordjevic, “Optimized receiver design for entanglement-assisted communication using BPSK”, Opt. Express, 31, № 24, 2023, 39765
- Igor Devetak, Marius Junge, Christoper King, Mary Beth Ruskai, “Multiplicativity of Completely Bounded p-Norms Implies a New Additivity Result”, Commun. Math. Phys., 266, № 1, 2006, 37
- Youngrong Lim, Soojoon Lee, “Activation of the quantum capacity of Gaussian channels”, Phys. Rev. A, 98, № 1, 2018, 012326
- Krishna Kumar Sabapathy, “Quantum-optical channels that output only classical states”, Phys. Rev. A, 92, № 5, 2015, 052301
- Gerardo Adesso, Davide Girolami, Alessio Serafini, “Measuring Gaussian Quantum Information and Correlations Using the Rényi Entropy of Order 2”, Phys. Rev. Lett., 109, № 19, 2012, 190502