| Author |
Session |
Start page |
Title |
| B B C D E G H I L O P R S W X Y Z |
| Brida, Giorgio |
TW5-QCIT 2.4 |
|
Metrology for Quantum Communication |
| C B C D E G H I L O P R S W X Y Z |
| Choi, Jinho |
TW5-QCIT 3.2 |
|
Secret Key Agreement for Massive MIMO Systems with Two-Way Training Under Pilot Contamination Attack |
| D B C D E G H I L O P R S W X Y Z |
| Dai, Wenhan |
TW5-QCIT 2.3 |
|
Efficient Quantum Entanglement Distillation for Phase-damping Channel |
| Degiovanni, Ivo |
TW5-QCIT 2.4 |
|
Metrology for Quantum Communication |
| Du, Gang |
TW5-QCIT 2.1 |
|
Opportunistic Quantum Network Coding |
| E B C D E G H I L O P R S W X Y Z |
| Elmabrok, Osama |
TW5-QCIT 3.4 |
|
Feasibility of Wireless Quantum Key Distribution in Indoor Environments |
| G B C D E G H I L O P R S W X Y Z |
| Garani, Shayan |
TW5-QCIT 3.1 |
|
Eavesdropping on a quantum channel with a unitarily interacting probe |
| Genovese, Marco |
TW5-QCIT 2.4 |
|
Metrology for Quantum Communication |
| Gramegna, Marco |
TW5-QCIT 2.4 |
|
Metrology for Quantum Communication |
| H B C D E G H I L O P R S W X Y Z |
| Ha, Jeongseok |
TW5-QCIT 3.2 |
|
Secret Key Agreement for Massive MIMO Systems with Two-Way Training Under Pilot Contamination Attack |
| I B C D E G H I L O P R S W X Y Z |
| Im, Sanghun |
TW5-QCIT 3.2 |
|
Secret Key Agreement for Massive MIMO Systems with Two-Way Training Under Pilot Contamination Attack |
| L B C D E G H I L O P R S W X Y Z |
| Li, Ke |
TW5-QCIT 2.2 |
|
Nonlinear Quantum Network Coding with Classical Communication Resource |
| Liu, Jianwei |
TW5-QCIT 2.2 |
|
Nonlinear Quantum Network Coding with Classical Communication Resource |
| TW5-QCIT 2.1 |
|
Opportunistic Quantum Network Coding |
| O B C D E G H I L O P R S W X Y Z |
| O'Brien, Dominic |
TW5 QCIT 1.1 |
|
Networked Quantum Information Technologies: Goals and Technical Challenges |
| P B C D E G H I L O P R S W X Y Z |
| Piacentini, Fabrizio |
TW5-QCIT 2.4 |
|
Metrology for Quantum Communication |
| R B C D E G H I L O P R S W X Y Z |
| Raina, Ankur |
TW5-QCIT 3.1 |
|
Eavesdropping on a quantum channel with a unitarily interacting probe |
| Razavi, Mohsen |
TW5-QCIT 3.4 |
|
Feasibility of Wireless Quantum Key Distribution in Indoor Environments |
| Ruan, Liangzhong |
TW5-QCIT 2.3 |
|
Efficient Quantum Entanglement Distillation for Phase-damping Channel |
| S B C D E G H I L O P R S W X Y Z |
| Shang, Tao |
TW5-QCIT 2.2 |
|
Nonlinear Quantum Network Coding with Classical Communication Resource |
| TW5-QCIT 2.1 |
|
Opportunistic Quantum Network Coding |
| W B C D E G H I L O P R S W X Y Z |
| Win, Moe |
TW5-QCIT 2.3 |
|
Efficient Quantum Entanglement Distillation for Phase-damping Channel |
| X B C D E G H I L O P R S W X Y Z |
| Xie, Yixuan |
TW5-QCIT 3.3 |
|
Proto-graph Quantum LDPC Codes From Tensor Product of Parity-Check Matrices |
| Y B C D E G H I L O P R S W X Y Z |
| Yuan, Jinhong |
TW5-QCIT 3.3 |
|
Proto-graph Quantum LDPC Codes From Tensor Product of Parity-Check Matrices |
| Z B C D E G H I L O P R S W X Y Z |
| Zhang, Chun Lei |
TW5-QCIT 2.2 |
|
Nonlinear Quantum Network Coding with Classical Communication Resource |
