论文信息 - Testing Bell’s inequality with ballistic electrons in semiconductors

Testing Bell’s inequality with ballistic electrons in semiconductors

We propose an experiment to test Bell's inequality violation in condensed-matter physics. We show how to generate, manipulate, and detect entangled states using ballistic electrons in Coulomb-coupled semiconductor quantum wires. Due to its simplicity (only five gates are required to prepare entangled states and to test Bell's inequality), the proposed semiconductor-based scheme can be implemented with currently available technology. Moreover, its basic ingredients may play a role towards large-scale quantum-information processing in solid-state devices.

[1] A. M. Robinson,et al. Quantum computation using electrons trapped by surface acoustic waves , 2000, Quantum Inf. Comput..

[2] D. DiVincenzo,et al. The Physical Implementation of Quantum Computation , 2000, quant-ph/0002077.

[3] Uk,et al. Quantum entanglement and information processing via excitons in optically driven quantum dots , 1999, quant-ph/9911123.

[4] D. DiVincenzo,et al. Quantum Computation and Spin Electronics , 1999, cond-mat/9911245.

[5] D. Loss,et al. Probing entanglement and nonlocality of electrons in a double-dot via transport and noise. , 1999, Physical review letters.

[6] G. Burkard,et al. Noise of entangled electrons: Bunching and antibunching , 1999, cond-mat/9906071.

[7] G. Amaratunga,et al. Ballistic Single-Electron Quputer , 1999, quant-ph/9907043.