Seminars
April 13, 2015
ANTOINE BROWAEY 'Experimental Investigations of the Resonant Dipole-Dipole Interaction between Cold Rydberg Atoms'
ANTOINE BROWAEY 'Experimental Investigations of the Resonant Dipole-Dipole Interaction between Cold Rydberg Atoms'
ANTOINE BROWAEY
Institut d’Optique, CNRS, Palaiseau
Seminar, April 13, 2015, 15:00. Seminar Room
ANTOINE BROWAEY
Institut d’Optique, CNRS, Palaiseau
ANTOINE BROWAEY
Institut d’Optique, CNRS, Palaiseau
This talk will present our on-going effort to control the dipole-dipole interaction between cold Rydberg atoms. In our experiment, we trap individual atoms in two-dimensional arrays of optical tweezers separated by few micrometers and excite them to Rydberg states using lasers. The arrays are produced by a spatial light modulator, which shapes the dipole trap beam. We can create almost arbitrary geometries of the arrays.
We have measured the van der Waals interaction between two individual atoms, and show efficient Rydberg blockade in arrays of three atoms. We have also demonstrated the control of the interaction between atoms with microwave and DC electric fields. We observe in particular the coherent energy exchange between two atoms resulting from their dipole-dipole interaction. This control of the interaction will find applications in quantum state engineering, quantum information and quantum simulation.
Seminar, April 13, 2015, 15:00. Seminar Room
Hosted by Prof. Morgan W. Mitchell
We have measured the van der Waals interaction between two individual atoms, and show efficient Rydberg blockade in arrays of three atoms. We have also demonstrated the control of the interaction between atoms with microwave and DC electric fields. We observe in particular the coherent energy exchange between two atoms resulting from their dipole-dipole interaction. This control of the interaction will find applications in quantum state engineering, quantum information and quantum simulation.
Seminar, April 13, 2015, 15:00. Seminar Room
Hosted by Prof. Morgan W. Mitchell
Seminars
April 13, 2015
ANTOINE BROWAEY 'Experimental Investigations of the Resonant Dipole-Dipole Interaction between Cold Rydberg Atoms'
ANTOINE BROWAEY 'Experimental Investigations of the Resonant Dipole-Dipole Interaction between Cold Rydberg Atoms'
ANTOINE BROWAEY
Institut d’Optique, CNRS, Palaiseau
Seminar, April 13, 2015, 15:00. Seminar Room
ANTOINE BROWAEY
Institut d’Optique, CNRS, Palaiseau
ANTOINE BROWAEY
Institut d’Optique, CNRS, Palaiseau
This talk will present our on-going effort to control the dipole-dipole interaction between cold Rydberg atoms. In our experiment, we trap individual atoms in two-dimensional arrays of optical tweezers separated by few micrometers and excite them to Rydberg states using lasers. The arrays are produced by a spatial light modulator, which shapes the dipole trap beam. We can create almost arbitrary geometries of the arrays.
We have measured the van der Waals interaction between two individual atoms, and show efficient Rydberg blockade in arrays of three atoms. We have also demonstrated the control of the interaction between atoms with microwave and DC electric fields. We observe in particular the coherent energy exchange between two atoms resulting from their dipole-dipole interaction. This control of the interaction will find applications in quantum state engineering, quantum information and quantum simulation.
Seminar, April 13, 2015, 15:00. Seminar Room
Hosted by Prof. Morgan W. Mitchell
We have measured the van der Waals interaction between two individual atoms, and show efficient Rydberg blockade in arrays of three atoms. We have also demonstrated the control of the interaction between atoms with microwave and DC electric fields. We observe in particular the coherent energy exchange between two atoms resulting from their dipole-dipole interaction. This control of the interaction will find applications in quantum state engineering, quantum information and quantum simulation.
Seminar, April 13, 2015, 15:00. Seminar Room
Hosted by Prof. Morgan W. Mitchell