Abstract
We present an adiabatic approach to the design of entangling quantum operations with two electron spins localized in separate InAs/GaAs quantum dots via the Coulomb interaction between optically excited localized states. Slowly varying optical pulses minimize the pulse noise and the relaxation of the excited states. An analytical “dressed-state” solution gives a clear physical picture of the entangling process and a numerical solution is used to investigate the error dynamics. For two vertically stacked quantum dots we show that, for a broad range of dot parameters, a two-spin state with concurrence can be obtained by four optical pulses with durations .
- Received 23 October 2008
DOI:https://doi.org/10.1103/PhysRevB.78.235314
©2008 American Physical Society