We analyze the stability of a quantum algorithm simulating the quantum dynamics of a system with different regimes, ranging from global chaos to integrability. We compare, in these different regimes, the behavior of the fidelity of quantum motion when the system's parameters are perturbed or when there are unitary errors in the quantum gates implementing the quantum algorithm. While the first kind of errors has a classical limit, the second one has no classical analog. It is shown that, whereas in the first case ("classical errors") the decay of fidelity is very sensitive to the dynamical regime, in the second case ("quantum errors") it is almost independent of the dynamical behavior of the simulated system. Therefore, the rich variety of b...
Noisy, intermediate-scale quantum (NISQ) processors are improving rapidly but remain well short of r...
This review summarizes and amplifies on recent investigations of coupled quantum dynamical systems ...
We study the stability of quantum motion of classically regular systems in the presence of small per...
We analyze the stability of a quantum algorithm simulating the quantum dynamics of a system with dif...
We study the effects of dynamical imperfections in quantum computers. By considering an explicit exa...
The stability of quantum motion for a classically chaotic system is discussed. The existence of diff...
We determine the universal law for fidelity decay in quantum computations of complex dynamics in pre...
We discuss the behavior of fidelity for a classically chaotic quantum system. We show the existence ...
We discuss the stability of quantum motion under system's perturbations in the light of the correspo...
AbstractLet us consider the quantum/versus classical dynamics for Hamiltonians of the form(0.1)Hgϵ:=...
We discuss quantum fidelity decay of classically regular dynamics, in particular for an important sp...
We apply a dynamical systems approach to concatenation of quantum error correcting codes, extending ...
We study, analytically and numerically, the stability of quantum motion for a classically chaotic sy...
It is argued that the existing schemes of fault-tolerant quantum computation designed for discrete-t...
Noisy, intermediate-scale quantum (NISQ) processors are improving rapidly but remain well short of r...
This review summarizes and amplifies on recent investigations of coupled quantum dynamical systems ...
We study the stability of quantum motion of classically regular systems in the presence of small per...
We analyze the stability of a quantum algorithm simulating the quantum dynamics of a system with dif...
We study the effects of dynamical imperfections in quantum computers. By considering an explicit exa...
The stability of quantum motion for a classically chaotic system is discussed. The existence of diff...
We determine the universal law for fidelity decay in quantum computations of complex dynamics in pre...
We discuss the behavior of fidelity for a classically chaotic quantum system. We show the existence ...
We discuss the stability of quantum motion under system's perturbations in the light of the correspo...
AbstractLet us consider the quantum/versus classical dynamics for Hamiltonians of the form(0.1)Hgϵ:=...
We discuss quantum fidelity decay of classically regular dynamics, in particular for an important sp...
We apply a dynamical systems approach to concatenation of quantum error correcting codes, extending ...
We study, analytically and numerically, the stability of quantum motion for a classically chaotic sy...
It is argued that the existing schemes of fault-tolerant quantum computation designed for discrete-t...
Noisy, intermediate-scale quantum (NISQ) processors are improving rapidly but remain well short of r...
This review summarizes and amplifies on recent investigations of coupled quantum dynamical systems ...
We study the stability of quantum motion of classically regular systems in the presence of small per...