Add to ORKGWe consider the effects of certain forms of decoherence applied to both adiabatic and non-adiabatic geometric phase quantum gates. For a single qubit we illustrate path-dependent sensitivity to anisotropic noise and for two qubits we quantify the loss of entanglement as a function of decoherence
The quantum jump method for the calculation of geometric phase is reviewed. This is an operational m...
Due to its geometric nature Berry's geometric phase exhibits stability to a great extent when expos...
Methods and results for numerical simulations of one and two interacting rf-SQUID systems suitable f...
We examine the adiabatic dynamics of a quantum system coupled to a noisy classical control field. A ...
A quantum system interacting with its environment is subject to dephasing, which ultimately destroys...
We calculate the geometric phase associated with the evolution of a system subjected to decoherence ...
Using a kinematic approach we show that the non-adiabatic, non-cyclic, geometric phase cor...
The geometric phase of a spin-1/2 system driven by one and two mode quantum fields subject to decohe...
Beyond the quantum Markov approximation, we calculate the geometric phase of a two-level system driv...
It has been demonstrated in various ways, if not rigorously proven, that when a quantum system and a...
We present an adiabatic geometric quantum computation strategy based on the non-degenerate energy ei...
We propose a novel symmetrization procedure to beat decoherence for oscillator-assisted quantum gate...
Geometric phase plays an important role in evolution of pure or mixed quantum states. However, when ...
International audienceWe study the defects in adiabatic control of a quantum system caused by the en...
We study decoherence induced by stochastic squeezing control errors considering the particular imple...
The quantum jump method for the calculation of geometric phase is reviewed. This is an operational m...
Due to its geometric nature Berry's geometric phase exhibits stability to a great extent when expos...
Methods and results for numerical simulations of one and two interacting rf-SQUID systems suitable f...
We examine the adiabatic dynamics of a quantum system coupled to a noisy classical control field. A ...
A quantum system interacting with its environment is subject to dephasing, which ultimately destroys...
We calculate the geometric phase associated with the evolution of a system subjected to decoherence ...
Using a kinematic approach we show that the non-adiabatic, non-cyclic, geometric phase cor...
The geometric phase of a spin-1/2 system driven by one and two mode quantum fields subject to decohe...
Beyond the quantum Markov approximation, we calculate the geometric phase of a two-level system driv...
It has been demonstrated in various ways, if not rigorously proven, that when a quantum system and a...
We present an adiabatic geometric quantum computation strategy based on the non-degenerate energy ei...
We propose a novel symmetrization procedure to beat decoherence for oscillator-assisted quantum gate...
Geometric phase plays an important role in evolution of pure or mixed quantum states. However, when ...
International audienceWe study the defects in adiabatic control of a quantum system caused by the en...
We study decoherence induced by stochastic squeezing control errors considering the particular imple...
The quantum jump method for the calculation of geometric phase is reviewed. This is an operational m...
Due to its geometric nature Berry's geometric phase exhibits stability to a great extent when expos...
Methods and results for numerical simulations of one and two interacting rf-SQUID systems suitable f...