International audienceAn observer-based Hamiltonian identification algorithm for quantum systems has been proposed in [2]. The later paper provided a method to estimate the dipole moment matrix of a quantum system requiring the measurement of the populations on all states, which could be experimentally difficult to achieve. We propose here an extension to a 3-level quantum system, having access to the population of the ground state only. By a more adapted choice of the control field, we will show that a continuous measurement of this observable, alone, is enough to identify the field coupling parameters (dipole moment)
Precision control of a quantum system requires accurate determination of the effective system Hamilt...
This paper gives an overview of parameter estimation and system identification for quantum input–out...
The inversion problem of recovering the Hamiltonian and dipole moment is considered in a quantum con...
International audienceAn observer-based Hamiltonian identification algorithm for quantum systems has...
11 pagesAn observer-based Hamiltonian identification algorithm for quantum systems has been proposed...
This note considers Hamiltonian identification for a controllable quantum system with nondegenerate ...
International audienceA symmetry-preserving observer-based parameter identification algorithm for qu...
A symmetry-preserving observer-based parameter identification algorithm for quantum systems is propo...
Abstract—This note considers Hamiltonian identifi-cation for a controllable quantum system with non-...
International audienceThis note considers Hamiltonian identification for a controllable quantum syst...
International audienceWe consider a pure two-state quantum system illuminated by two lasers. A photo...
Identifying the Hamiltonian of a quantum system from experimental data is considered. General limits...
This paper considers the inversion problem related to the manipulation of quantum systems using lase...
This paper considers the inversion problem related to the manipulation of quantum systems using lase...
Precision control of a quantum system requires accurate determination of the effective system Hamilt...
Precision control of a quantum system requires accurate determination of the effective system Hamilt...
This paper gives an overview of parameter estimation and system identification for quantum input–out...
The inversion problem of recovering the Hamiltonian and dipole moment is considered in a quantum con...
International audienceAn observer-based Hamiltonian identification algorithm for quantum systems has...
11 pagesAn observer-based Hamiltonian identification algorithm for quantum systems has been proposed...
This note considers Hamiltonian identification for a controllable quantum system with nondegenerate ...
International audienceA symmetry-preserving observer-based parameter identification algorithm for qu...
A symmetry-preserving observer-based parameter identification algorithm for quantum systems is propo...
Abstract—This note considers Hamiltonian identifi-cation for a controllable quantum system with non-...
International audienceThis note considers Hamiltonian identification for a controllable quantum syst...
International audienceWe consider a pure two-state quantum system illuminated by two lasers. A photo...
Identifying the Hamiltonian of a quantum system from experimental data is considered. General limits...
This paper considers the inversion problem related to the manipulation of quantum systems using lase...
This paper considers the inversion problem related to the manipulation of quantum systems using lase...
Precision control of a quantum system requires accurate determination of the effective system Hamilt...
Precision control of a quantum system requires accurate determination of the effective system Hamilt...
This paper gives an overview of parameter estimation and system identification for quantum input–out...
The inversion problem of recovering the Hamiltonian and dipole moment is considered in a quantum con...