Add to ORKGThe authors discuss how to simulate simple quantum logic operations with a large number of qubits. These simulations are needed for experimental testing of scalable solid-state quantum computers. Quantum logic for remote qubits is simulated in a spin chain. Analytical estimates are presented for possible correlated errors caused by non-resonant transitions. A range of parameters is given in which non-resonant effects can be minimized
We develop a simulator for quantum computers composed of superconducting transmon qubits. The simula...
We develop a simulator for quantum computers composed of superconducting transmon qubits. The simula...
Quantum computing has advanced in recent years to the point that there are now some quantum computer...
We discuss how to simulate simple quantum logic operations with a large number of qubits. These simu...
We report the simulations of the dynamics of quantum-logic operations with large number of qubits (u...
We report the first simulations of the dynamics of quantum logic operations with a large number of q...
The perturbation theory is developed based on small parameters which naturally appear in solid state...
We analyze the stability of quantum computations on physically realizable quantum computers by simul...
We analyze the stability of quantum computations on physically realizable quantum computers by simul...
We study numerically the influence of non-resonant effects on the dynamics of a single-?-pulse quant...
We study effects of the physical realization of quantum computers on their logical operation. Throug...
We describe a new and consistent perturbation theory for solid-state quantum computation with many q...
We discuss how to simulate errors in the implementation of simple quantum logic operations in a nucl...
Creation of entanglement is considered theoretically and numerically in an ensemble of spin chains w...
We study effects of the physical realization of quantum computers on their logical operation. Throug...
We develop a simulator for quantum computers composed of superconducting transmon qubits. The simula...
We develop a simulator for quantum computers composed of superconducting transmon qubits. The simula...
Quantum computing has advanced in recent years to the point that there are now some quantum computer...
We discuss how to simulate simple quantum logic operations with a large number of qubits. These simu...
We report the simulations of the dynamics of quantum-logic operations with large number of qubits (u...
We report the first simulations of the dynamics of quantum logic operations with a large number of q...
The perturbation theory is developed based on small parameters which naturally appear in solid state...
We analyze the stability of quantum computations on physically realizable quantum computers by simul...
We analyze the stability of quantum computations on physically realizable quantum computers by simul...
We study numerically the influence of non-resonant effects on the dynamics of a single-?-pulse quant...
We study effects of the physical realization of quantum computers on their logical operation. Throug...
We describe a new and consistent perturbation theory for solid-state quantum computation with many q...
We discuss how to simulate errors in the implementation of simple quantum logic operations in a nucl...
Creation of entanglement is considered theoretically and numerically in an ensemble of spin chains w...
We study effects of the physical realization of quantum computers on their logical operation. Throug...
We develop a simulator for quantum computers composed of superconducting transmon qubits. The simula...
We develop a simulator for quantum computers composed of superconducting transmon qubits. The simula...
Quantum computing has advanced in recent years to the point that there are now some quantum computer...