Squeezing by Critical Speeding-up: Applications in Quantum Metrology

Abstract: We present an alternative protocol allowing for the preparation of critical states that instead of suffering from the critical slowing-down benefits from the critical speeding-up. Paradoxically, we prepare these states by going away from the critical point which allows for the speedup. We apply the protocol to the paradigmatic quantum Rabi model and its classical oscillator limit as well as the Lipkin-Meshkov-Glick model. Subsequently, we discuss the application of the adiabatic speed-up protocol in quantum me… Show more

“…Beyond their fundamental interest, finite-component phase transitions open perspectives for quantum technologies. Notably, finite-component critical phenomena in atomic and solidstate devices are promising candidates for the development of critical quantum sensors [42][43][44][45][46][47][48][49][50][51][52][53].…”

Non-Gaussian superradiant transition via three-body ultrastrong coupling

“…Beyond their fundamental interest, finite-component phase transitions open perspectives for quantum technologies. Notably, finite-component critical phenomena in atomic and solidstate devices are promising candidates for the development of critical quantum sensors [42][43][44][45][46][47][48][49][50][51][52][53].…”

Non-Gaussian superradiant transition via three-body ultrastrong coupling

“…Current solid-state and atomic technology allow for the implementation of these models in a controllable way, where their parameters can be tuned in real time. Intense research efforts [1,[25][26][27][28][29][30] are now dedicated to identifying the optimal control strategies that maximize the estimation precision.…”

Exponential precision by reaching a quantum critical point

Understanding and Improving Critical Metrology. Quenching Superradiant Light-Matter Systems Beyond the Critical Point