Artikelen met mandaten voor openbare toegang - Marco FanizzaMeer informatie
Ergens beschikbaar: 11
Numerical study of the Lorentzian Engle-Pereira-Rovelli-Livine spin foam amplitude
P Donà, M Fanizza, G Sarno, S Speziale
Physical Review D 100 (10), 106003, 2019
Mandaten: US National Science Foundation
Beyond the swap test: optimal estimation of quantum state overlap
M Fanizza, M Rosati, M Skotiniotis, J Calsamiglia, V Giovannetti
Physical review letters 124 (6), 060503, 2020
Mandaten: European Commission, Government of Spain, Government of Italy
Quantum flags and new bounds on the quantum capacity of the depolarizing channel
M Fanizza, F Kianvash, V Giovannetti
Physical Review Letters 125 (2), 020503, 2020
Mandaten: Government of Italy
Estimating quantum and private capacities of Gaussian channels via degradable extensions
M Fanizza, F Kianvash, V Giovannetti
Physical review letters 127 (21), 210501, 2021
Mandaten: Government of Italy
Squeezing-enhanced communication without a phase reference
M Fanizza, M Rosati, M Skotiniotis, J Calsamiglia, V Giovannetti
Quantum 5, 608, 2021
Mandaten: European Commission, Government of Spain, Government of Italy
Bounding the quantum capacity with flagged extensions
F Kianvash, M Fanizza, V Giovannetti
Quantum 6, 647, 2022
Mandaten: Government of Italy
Agnostic Dolinar receiver for coherent-state classification
F Zoratti, N Dalla Pozza, M Fanizza, V Giovannetti
Physical Review A 104 (4), 042606, 2021
Mandaten: Government of Italy
Ultimate limits for quickest quantum change-point detection
M Fanizza, C Hirche, J Calsamiglia
Physical review letters 131 (2), 020602, 2023
Mandaten: European Commission, Government of Spain
Universal algorithms for quantum data learning
M Fanizza, M Skotiniotis, J Calsamiglia, R Muñoz-Tapia, G Sentís
Europhysics Letters 140 (2), 28001, 2022
Mandaten: Government of Spain
Testing identity of collections of quantum states: sample complexity analysis
M Fanizza, R Salvia, V Giovannetti
Quantum 7, 1105, 2023
Mandaten: Government of Spain
Performance of Gaussian encodings for classical communication on correlated quantum phase-noise channels
M Fanizza, M Rosati, M Skotiniotis, J Calsamiglia, V Giovannetti
2020 IEEE International Symposium on Information Theory (ISIT), 1830-1834, 2020
Mandaten: European Commission, Government of Spain
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