Stefano Paesani
Stefano Paesani
Niels Bohr Institute, University of Copenhagen
Verified email at
Cited by
Cited by
Multidimensional quantum entanglement with large-scale integrated optics
J Wang, S Paesani, Y Ding, R Santagati, P Skrzypczyk, A Salavrakos, ...
Science 360 (6386), 285-291, 2018
Experimental quantum Hamiltonian learning
J Wang, S Paesani, R Santagati, S Knauer, AA Gentile, N Wiebe, ...
Nature Physics 13 (6), 551-555, 2017
Experimental Bayesian quantum phase estimation on a silicon photonic chip
S Paesani, AA Gentile, R Santagati, J Wang, N Wiebe, DP Tew, ...
Physical review letters 118 (10), 100503, 2017
Witnessing eigenstates for quantum simulation of Hamiltonian spectra
R Santagati, J Wang, AA Gentile, S Paesani, N Wiebe, JR McClean, ...
Science advances 4 (1), eaap9646, 2018
Generation and sampling of quantum states of light in a silicon chip
S Paesani, Y Ding, R Santagati, L Chakhmakhchyan, C Vigliar, K Rottwitt, ...
Nature Physics 15 (9), 925-929, 2019
60 dB high-extinction auto-configured Mach–Zehnder interferometer
CM Wilkes, X Qiang, J Wang, R Santagati, S Paesani, X Zhou, DAB Miller, ...
Optics letters 41 (22), 5318-5321, 2016
Chip-to-chip quantum teleportation and multi-photon entanglement in silicon
D Llewellyn, Y Ding, II Faruque, S Paesani, D Bacco, R Santagati, ...
Nature Physics 16, 148–153, 2020
Path-polarization hyperentangled and cluster states of photons on a chip
MA Ciampini, A Orieux, S Paesani, F Sciarrino, G Corrielli, A Crespi, ...
Light: Science & Applications 5 (4), e16064-e16064, 2016
Magnetic-field learning using a single electronic spin in diamond with one-photon readout at room temperature
R Santagati, AA Gentile, S Knauer, S Schmitt, S Paesani, C Granade, ...
Physical Review X 9 (2), 021019, 2019
Near-ideal spontaneous photon sources in silicon quantum photonics
S Paesani, M Borghi, S Signorini, A Ma´nos, L Pavesi, A Laing
Nature communications 11 (1), 1-6, 2020
Quantum simulation of Hamiltonian spectra on a silicon chip
R Santagati, J Wang, AA Gentile, S Paesani, N Wiebe, J McClean, S Short, ...
arXiv preprint arXiv:1611.03511, 2016
Learning models of quantum systems from experiments
AA Gentile, B Flynn, S Knauer, N Wiebe, S Paesani, CE Granade, ...
Nature Physics, 1-7, 2021
An optical neural chip for implementing complex-valued neural network
H Zhang, M Gu, XD Jiang, J Thompson, H Cai, S Paesani, R Santagati, ...
Nature Communications 12 (1), 1-11, 2021
A Precise High Count-Rate FPGA Based Multi-Channel Coincidence Counting System for Quantum Photonics Applications
E Arabul, S Paesani, S Tancock, J Rarity, N Dahnoun
IEEE Photonics Journal 12 (2), 1-14, 2020
Demonstration of chip-to-chip quantum teleportation
Y Ding, D Llewellyn, I Faruque, S Paesani, D Bacco, R Santagati, Y Qian, ...
CLEO: Science and Innovations, JTh5C. 4, 2019
Error protected qubits in a silicon photonic chip
C Vigliar, S Paesani, Y Ding, JC Adcock, J Wang, S Morley-Short, ...
arXiv preprint arXiv:2009.08339, 2020
Integrated quantum photonics on silicon platform
Y Ding, D Llewellyn, I Faruque, S Paesani, D Bacco, K Rottwitt, A Laing, ...
Optical Fiber Communication Conference, W4C. 6, 2020
Noise resilience of bayesian quantum phase estimation tested on a si quantum photonic chip
AA Gentile, S Paesani, R Santagati, J Wang, N Wiebe, D Tew, JL O’Brien, ...
European Quantum Electronics Conference, EB_6_2, 2017
Experimental quantum hamiltonian learning using a silicon photonic chip and a nitrogen-vacancy electron spin in diamond
S Paesani, J Wang, R Santagati, S Knauer, AA Gentile, N Wiebe, ...
European Quantum Electronics Conference, EB_3_2, 2017
Silicon quantum photonic device for multidimensional controlled unitaries
KI Koteva, AA Gentile, B Flynn, S Paesani, JC Adcock, J Wang, N Wiebe, ...
Frontiers in Optics, FTu8D. 1, 2020
The system can't perform the operation now. Try again later.
Articles 1–20