Add to ORKGQuantum process tomography is used to fully characterize the evolution of the quantum vibrational state of atoms. Rubidium atoms are trapped in a shallow optical lattice supporting only two vibrational states, which we charcterize by reconstructing the 2x2 density matrix. Repeating this process for a complete set of inputs allows us to completely characterize both the system's intrinsic decoherence and resonant coupling
We have developed an enhanced technique for characterizing quantum optical processes based on probin...
We study a two-level impurity coupled locally to a quantum gas on an optical lattice. For state-depe...
A methodology for a full molecular frame quantum tomography (MFQT) of dynamical poly-atomic systems ...
The description of excited state dynamics in energy transfer systems constitutes a theoretical and e...
We review the method for characterizing, with arbitrarily high accuracy, any quantum optical process...
The density matrix of a two-level system (spin, atom) is usually determined by measuring the three n...
We realize on an atom-chip, a practical, experimentally undemanding, tomographic reconstruction algo...
Studying mechanical resonators via radiation pressure offers a rich avenue for the exploration of qu...
Thesis (Ph. D.)--University of Rochester. Institute of Optics, 1999.Measuring the density operator o...
The standard experimental techniques usually adopted in the study of the behaviour of ultracold atom...
We have used the method of quantum tomography to reconstruct the Wigner function of squeezed light g...
| openaire: EC/H2020/862644/EU//QUARTETQuantum control methods for three-level systems have become r...
Quantum state preparation and especially quantum state reconstruction of mechanical oscillators is c...
A many-body atomic system coupled to quantized light is subject to weak measurement. Instead of coup...
AbstractLong-lived electronic coherences in various photosynthetic complexes at cryogenic and room t...
We have developed an enhanced technique for characterizing quantum optical processes based on probin...
We study a two-level impurity coupled locally to a quantum gas on an optical lattice. For state-depe...
A methodology for a full molecular frame quantum tomography (MFQT) of dynamical poly-atomic systems ...
The description of excited state dynamics in energy transfer systems constitutes a theoretical and e...
We review the method for characterizing, with arbitrarily high accuracy, any quantum optical process...
The density matrix of a two-level system (spin, atom) is usually determined by measuring the three n...
We realize on an atom-chip, a practical, experimentally undemanding, tomographic reconstruction algo...
Studying mechanical resonators via radiation pressure offers a rich avenue for the exploration of qu...
Thesis (Ph. D.)--University of Rochester. Institute of Optics, 1999.Measuring the density operator o...
The standard experimental techniques usually adopted in the study of the behaviour of ultracold atom...
We have used the method of quantum tomography to reconstruct the Wigner function of squeezed light g...
| openaire: EC/H2020/862644/EU//QUARTETQuantum control methods for three-level systems have become r...
Quantum state preparation and especially quantum state reconstruction of mechanical oscillators is c...
A many-body atomic system coupled to quantized light is subject to weak measurement. Instead of coup...
AbstractLong-lived electronic coherences in various photosynthetic complexes at cryogenic and room t...
We have developed an enhanced technique for characterizing quantum optical processes based on probin...
We study a two-level impurity coupled locally to a quantum gas on an optical lattice. For state-depe...
A methodology for a full molecular frame quantum tomography (MFQT) of dynamical poly-atomic systems ...