It is generally impossible to probe a quantum system without disturbing it. However, it is possible to exploit the back action of quantum measurements and strong couplings to tailor and protect the coherent evolution of a quantum system. This is a profound and counter- intuitive phenomenon known as quantum Zeno dynamics. Here we demonstrate quantum Zeno dynamics with a rubidium Bose–Einstein condensate in a five-level Hilbert space. We harness measurements and strong couplings to dynamically disconnect different groups of quantum states and constrain the atoms to coherently evolve inside a two-level subregion. In parallel to the foundational importance due to the realization of a dynamical superselection rule and the theory of quantum measurements, this is an important step forward in protecting and controlling quantum dynamics and, broadly speaking, quantum information processing.
Experimental realization of quantum zeno dynamics / Florian Schafer; Ivan Herrera; Shahid Cherukattil; Cosimo Lovecchio; Francesco Saverio Cataliotti; Filippo Caruso; Augusto Smerzi. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - ELETTRONICO. - 5:(2014), pp. 3194-1-3194-6. [10.1038/ncomms4194]
Experimental realization of quantum zeno dynamics
HERRERA BENZAQUEN, IVAN;LOVECCHIO, COSIMO;CATALIOTTI, FRANCESCO SAVERIO;CARUSO, FILIPPO;SMERZI, AUGUSTO
2014
Abstract
It is generally impossible to probe a quantum system without disturbing it. However, it is possible to exploit the back action of quantum measurements and strong couplings to tailor and protect the coherent evolution of a quantum system. This is a profound and counter- intuitive phenomenon known as quantum Zeno dynamics. Here we demonstrate quantum Zeno dynamics with a rubidium Bose–Einstein condensate in a five-level Hilbert space. We harness measurements and strong couplings to dynamically disconnect different groups of quantum states and constrain the atoms to coherently evolve inside a two-level subregion. In parallel to the foundational importance due to the realization of a dynamical superselection rule and the theory of quantum measurements, this is an important step forward in protecting and controlling quantum dynamics and, broadly speaking, quantum information processing.
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