Two-state teleportation

Physical Review A - Atomic, Molecular, and Optical Physics 61:6 (2000) 062306-062301

Authors:

L Henderson, L Hardy, V Vedral

Abstract:

Lower bounds for two-state teleportation fidelity were computed using a nonmaximally entangled pure state as a channel, and the exact result for the two-state fidelity with no entanglement. Only pure entangled states were considered as channels for teleportation. The results provide additional information on the respective roles of classical information and quantum entanglement in the new field of quantum information processing.

Entanglement Purification

Chapter in The Physics of Quantum Information, Springer Nature (2000) 261-293

Authors:

H-J Briegel, B Huttner, N Gisin, C Macchiavello, M Murao, MB Plenio, S Popescu, V Vedral, PL Knight, W Dür, SJ van Enk, JI Cirac, P Zoller

Manipulation of entangled states for quantum information processing

QUANTUM COMMUNICATION, COMPUTING, AND MEASUREMENT 2 (2000) 49-58

Authors:

S Bose, SF Huelga, D Jonathan, PL Knight, M Murao, MB Plenio, V Vedral

Quantum Dense Coding and Quantum Teleportation

Chapter in The Physics of Quantum Information, Springer Nature (2000) 49-92

Authors:

D Bouwmeester, H Weinfurter, A Zeilinger, N Gisin, JG Rarity, G Weihs, J-W Pan, S Bose, V Vedral, PL Knight

Quantum Networks and Multi-Particle Entanglement

Chapter in The Physics of Quantum Information, Springer Nature (2000) 191-220

Authors:

H-J Briegel, SJ van Enk, JI Cirac, P Zoller, D Bouwmeeester, J-W Pan, M Daniell, H Weinfurter, A Zeilinger, V Vedral, MB Plenio, PL Knight