Quantum control of a model qubit based on a multi-layered quantum dot

ALEJANDRO FERRÓN; PABLO SERRA; OMAR OSENDA

JOURNAL OF APPLIED PHYSICS

AMER INST PHYSICS

Lugar: Melville; Año: 2013 vol. 113 p. 134303 - 134303

0021-8979

In this work we present a model qubit whose basis states are eigenstates of a multi-layered quantum dot. We show that the proper design of the quantum dot results in qubit states that have excellent dynamical properties when a time-dependent driving is applied to it. In particular, it is shown that a simple sinusoidal driving is sufficient to obtain good quality Rabi oscillations between the qubit states. Moreover, the switching between states can be performed with very low leakage, even under off-resonance conditions. In this sense, the quantum control of the qubit is robust under some perturbations and achieved with simple means. More precisely, in this article, we propose a device that is within the reach of current semiconductor technology, a ZnS/CdSe/ZnS/CdSe/ZnS layered quantum dot. In addition, in order to clarify, we show a more general and theoretical model, which we believe is helpful in order to search the ideal experimental device.