Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2005-08-20
Proc. Int. School Phys. E. Fermi, Vol. 162 (IOS Press, Amsterdam, 2006).
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
24 pages, 23 figures; review of published work with one new result: the critical temperature beyond which the entanglement van
Scientific paper
I. Introduction (Preface, Exciton entanglers, Photon entanglers) II. Entanglement basics (Quantum versus classical correlations, Bell inequality, Entanglement measures for pure states, Entanglement measures for mixed states, Particle conservation, Phase reference) III. How to entangle free particles (Free bosons, Free fermions) IV. Spin versus orbital entanglement V. Entanglement detection by noise measurements (Tunneling regime, Beyond the tunneling regime, Full counting statistics) VI. Loss of entanglement by dephasing VII. Quantum entanglement pump VIII. Teleportation by electron-hole annihilation IX. Three-qubit entanglement X. The experimental challenge
Beenakker C. W. J.
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