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Shortcuts to Squeezed Thermal States

Squeezed state in harmonic systems can be generated through a variety of techniques, including varying the oscillator frequency or using nonlinear two-photon Raman interaction. We focus on these two techniques to drive an initial thermal state into a final squeezed thermal state with controlled squeezing parameters – amplitude and phase – in arbitrary time. The protocols are designed through reverse engineering for both unitary and open dynamics. Control of the dissipation is achieved using stochastic processes, readily implementable via, e.g., continuous quantum measurements. Importantly, this allows controlling the state entropy and can be used for fast thermalization. The developed protocols are thus suited to generate squeezed thermal states at controlled temperature in arbitrary time.

Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften

Léonce Dupays Aurélia Chenu

Quantum

2021

Title: Shortcuts to Squeezed Thermal States

Description:

Squeezed state in harmonic systems can be generated through a variety of techniques, including varying the oscillator frequency or using nonlinear two-photon Raman interaction.

We focus on these two techniques to drive an initial thermal state into a final squeezed thermal state with controlled squeezing parameters – amplitude and phase – in arbitrary time.

The protocols are designed through reverse engineering for both unitary and open dynamics.

Control of the dissipation is achieved using stochastic processes, readily implementable via, e.

, continuous quantum measurements.

Importantly, this allows controlling the state entropy and can be used for fast thermalization.

The developed protocols are thus suited to generate squeezed thermal states at controlled temperature in arbitrary time.

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