We demonstrate a trapped-ion system with two competing dissipation channels, implemented independently on two ion species cotrapped in a Paul trap. By controlling coherent spin-oscillator couplings and optical pumping rates we explore the phase diagram of this system, which exhibits a regime analogous to that of a (phonon) laser but operates close to the quantum ground state with an average phonon number of ¯𝑛<10. We demonstrate phase locking of the oscillator to an additional resonant drive, and also observe the phase diffusion of the resulting state under dissipation by reconstructing the quantum state from a measurement of the characteristic function.
Phonon Laser in the Quantum Regime / Behrle, T.; Nguyen, T. l.; Reiter, F.; Baur, D.; De Neeve, B.; Stadler, M.; Marinelli, M; Lancellotti, F.; Yelin, S. f.; Home, J. p.. - In: PHYSICAL REVIEW LETTERS. - ISSN 1092-0145. - 131:4(2023), pp. 043605-043610. [10.1103/PhysRevLett.131.043605]
Phonon Laser in the Quantum Regime
MARINELLI M;
2023-01-01
Abstract
We demonstrate a trapped-ion system with two competing dissipation channels, implemented independently on two ion species cotrapped in a Paul trap. By controlling coherent spin-oscillator couplings and optical pumping rates we explore the phase diagram of this system, which exhibits a regime analogous to that of a (phonon) laser but operates close to the quantum ground state with an average phonon number of ¯𝑛<10. We demonstrate phase locking of the oscillator to an additional resonant drive, and also observe the phase diffusion of the resulting state under dissipation by reconstructing the quantum state from a measurement of the characteristic function.| File | Dimensione | Formato | |
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