Fast and robust implementation of quantum gates by transitionless quantum driving

As a basic operation in quantum computers, quantum logic gates and particularly controlled NOT (CNOT) gates are important in quantum information processing. In this paper, we propose a one-step scheme to generate a CNOT gate via transitionless quantum driving. In this scheme, an effective Hamiltonian is obtained based on quantum Zeno dynamics to drive the system to evolve into the target state when the parameters are reasonably set. The results of explicit numerical simulations indicate that the proposed scheme is robust against instability related to variation in experimental parameters and decoherence. The scheme can also be extended to generate a Toffoli gate, which is useful for large-scale quantum computers. Moreover, the generation process involves only a single step, greatly simplifying its implementation.

Automated summary

In this paper, a one-step scheme to generate a CNOT gate via transitionless quantum driving is proposed, which exhibits robustness against instability related to variation in experimental parameters and decoherence. The scheme can be extended to generate a Toffoli gate for large-scale quantum computers, and its implementation is greatly simplified by involving only a single step.