Towards a More Feasible Implementation of Quantum Networks
Offered By: PCS Institute for Basic Science via YouTube
Course Description
Overview
Explore a groundbreaking quantum repeater protocol that eliminates the need for quantum memories while achieving high communication rates in quantum networks. Delve into the interaction between rotation symmetric bosonic codes (RSBCs) and matter qubits in cavity-QED systems. Examine the performance of this innovative quantum repeater system by analyzing the secret key rate in quantum key distribution (QKD) protocols. Discover the advantages of using cluster states as fundamental components in this repeater protocol. Compare the implementation costs of this system with existing third-generation quantum repeater systems, and gain insights into the future of large-scale quantum information exchange.
Syllabus
Nicoló Lo Piparo, Towards a more feasible implementation of quantum networks
Taught by
PCS Institute for Basic Science
Related Courses
Quantum Information Science I, Part 3Massachusetts Institute of Technology via edX Физические основы квантовой информатики
National Research Nuclear University MEPhI via edX Основы квантовой криптографии
National Research Nuclear University MEPhI via edX Cryptography: Boolean functions and related problems
Novosibirsk State University via Coursera Quantum Networking
Purdue University via edX