We are a leading research group in the area of electromagnetism. Our scope covers antenna design and measurement, computational electromagnetism, EMC, radar, millimiter waves applications, electro-optics and quantum information technology.
"Long-distance device-independent quantum key distribution". V. Zapatero, M. Curty, Scientific Reports 9, 17749 (2019)
"Beating the repeaterless bound with adaptive measurement-device-independent quantum key distribution". R. Trényi, K. Azuma, M. Curty, New Journal of Physics 21, 113052 (2019)
"Asymmetric twin-field quantum key distribution". F. Grasselli, A. Navarrete, M. Curty, New Journal of Physics 21, 113032 (2019)
"Tight finite-key security for twin-field quantum key distribution". G. Curras Lorenzo, A. Navarrete, K. Azuma, M. Curty, M. Razavi, preprint arXiv:1910.11407, submitted to Nature Communications (2019)
"Proof-of-principle experimental demonstration of twin-field type quantum key distribution". X. Zhong, J. Hu, M. Curty, L. Qian, H.-K. Lo, Physical Review Letters 123, 100506 (2019)
“Quantum key distribution with correlated sources”. M. Pereira, G. Kato, A. Mizutani, M. Curty, K. Tamaki, preprint arXiv:1908.08261, submitted to Nature Communications (2019)
"Simple security proof of twin-field type quantum key distribution protocol". M. Curty, K. Azuma, H.-K. Lo, npj Quantum Information 5, 64 (2019)
"Quantum key distribution with flawed and leaky sources". M. Pereira, M. Curty, K. Tamaki, npj Quantum Information 5, 62 (2019)
"Practical decoy-state method for twin-field quantum key distribution". F. Grasselli, M. Curty, New Journal of Physics 21, 073001 (2019)