Add to ORKGFundamental limits on the controllability of quantum mechanical systems are discussed in the light of quantum information theory. It is shown that the amount of entropy-reduction that can be extracted from a quantum system by feedback controller is upper bounded by a sum of the decrease of entropy achievable in open-loop control and the mutual information between the quantum system and the controller. This upper bound sets a fundamental limit on the performance of any quantum controllers whose designs are based on the possibilities to attain low entropy states. An application of this approach pertaining to quantum error correction is also discussed
Information is physical. It is sensible to use quantum mechanics as a basis of computation and info...
This review concerns quantum control results and methods that, over the years, have been used in the...
Quantum mechanics and information theory are among the most important scientific discoveries of the ...
Accurate manipulations of an open quantum system require a deep knowledge of its controllability pro...
Quantum information science has blossomed into a major research field over the past decade or so. In...
This paper is concerned with the concept of information state and its use in optimal feedback contro...
Quantum systems have been traditionally subjected to ad hoc control approaches, which although effec...
The precise, human control of quantum systems, by its definition, must combine models of the classic...
The optimally designed control of quantum systems is playing an increasingly important role to engin...
The problem of system control Systems do not always behave the way we would! Add a “controller ” t...
We consider separating the problem of designing Hamiltonian quantum feedback control algorithms into...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
We present an investigation of optimal control techniques applied to computational and transport pro...
One of the predominant challenges when engineering future quantum information processors is that lar...
This paper proposes a new quantum control method which controls the Shannon entropy of quantum syste...
Information is physical. It is sensible to use quantum mechanics as a basis of computation and info...
This review concerns quantum control results and methods that, over the years, have been used in the...
Quantum mechanics and information theory are among the most important scientific discoveries of the ...
Accurate manipulations of an open quantum system require a deep knowledge of its controllability pro...
Quantum information science has blossomed into a major research field over the past decade or so. In...
This paper is concerned with the concept of information state and its use in optimal feedback contro...
Quantum systems have been traditionally subjected to ad hoc control approaches, which although effec...
The precise, human control of quantum systems, by its definition, must combine models of the classic...
The optimally designed control of quantum systems is playing an increasingly important role to engin...
The problem of system control Systems do not always behave the way we would! Add a “controller ” t...
We consider separating the problem of designing Hamiltonian quantum feedback control algorithms into...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
We present an investigation of optimal control techniques applied to computational and transport pro...
One of the predominant challenges when engineering future quantum information processors is that lar...
This paper proposes a new quantum control method which controls the Shannon entropy of quantum syste...
Information is physical. It is sensible to use quantum mechanics as a basis of computation and info...
This review concerns quantum control results and methods that, over the years, have been used in the...
Quantum mechanics and information theory are among the most important scientific discoveries of the ...