ISNTT2024  —  International School and Symposium on Nanodevices and quanTum Technologies

December 2 to 6, 2024, NTT Atsugi R&D center, JAPAN

Speakers

KEYNOTE Speakers

Richard Jozsa — University of Cambridge
"Classically simulatable quantum computations – a perspective on the origin of QC power"

INVITED Speakers

Davide Bacco — University of Florence
"Advances in quantum communications: from single photon sources to multidimensional quantum states."
Marcos Curty — University of Vigo
"Advances and Challenges in Quantum Key Distribution"
Emmanuel Flurin — Université Paris-Saclay
"Single atom magnetic resonance by microwave photon counting"
Sophie Guéron — Université Paris-Saclay
"Detecting topological edge states with mesoscopic physics"
Masato Koashi — The University of Tokyo
"Space and Time Overheads in Fault-Tolerant Quantum Computation"
Hyukjoon Kwon — Korea Institute for Advanced Study (KIAS)
"Suppressing quantum errors via continuous-time dissipation engineering"
Xavier Marie — Université de Toulouse
"Optical control of the exciton properties in atomically thin transition metal dichalcogenides"
Kentaro Nomura — Kyushu University
"Spintronics functionalities of magnetic Weyl semimetals"
Takashi Oka — The University of Tokyo
"Floquet engineering of Dirac electrons and new non-equilibrium states"
Preden Roulleau — CEA Saclay
"Emission and coherent control of Levitons in graphene"
Volodymyr V. Sivak — Google Quantum AI
"Real-time quantum error correction beyond break-even"
Shuntaro Takeda — The University of Tokyo
"Time-multiplexed programmable continuous-variable photonic quantum computing"
Hyunsoo Yang — National University of Singapore
"Spintronics with 2D materials"
Naotaka Yoshikawa — The University of Tokyo
"Control of anomalous Hall conductivity in topological semimetal Co3Sn2S2 using mid-infrared light"
Xiao Yuan — University of Peking
"Quantum advantage for near-term and fault-tolerant quantum computers"
Qiang Zhang — University of Science and Technology of China (USTC)
"Recent experimental progress in quantum communication"
Lihuang Zhu — IQM Quantum Computers
"Coherence and fidelity improvement with IQM F1 fabrication facility"