Towards Quantum Communication with Electron Spins

D. S. SARAGA; G. BURKARD; J. C. EGUES; H. A. ENGEL; P. RECHER; DANIEL LOSS

Towards Quantum Communication with Electron Spins

Authors: D. S. SARAGA, G. BURKARD, J. C. EGUES, H. A. ENGEL, P. RECHER, DANIEL LOSS

Abstract: We review our recent work towards quantum communication in a solid-state environment with qubits carried by electron spins. We propose three schemes to produce spin-entangled electrons, where the required separation of the partner electrons is achieved via Coulomb interaction. The non-product spin-states originate either from the Cooper pairs found in a superconductor, or in the ground state of a quantum dot with an even number of electrons. In a second stage, we show how spin-entanglement carried by a singlet can be detected in a beam-splitter geometry by an increased (bunching) or decreased (antibunching) noise signal. We also discuss how a local spin-orbit interaction can be used to provide a continuous modulation of the noise as a signature of entanglement. Finally, we review how one can use a quantum dot as a spin-filter, a spin-memory read-out, a probe for single-spin decoherence and, ultimately, a single-spin measurement apparatus.

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