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Active HORIZON European Commission

Challenging the limits of mechanical quantum metrology

€2.66M EUR

Funder European Commission
Recipient Organization Stichting Nederlandse Wetenschappelijk Onderzoek Instituten
Country Netherlands
Start Date Jan 01, 2024
End Date Dec 31, 2028
Duration 1,826 days
Number of Grantees 1
Roles Coordinator
Data Source European Commission
Grant ID 101088055
Grant Description

Nano- and micromechanical resonators, with their high coherence and low mass, serve as extremely good sensors of small forces and particles.

They are especially powerful in combination with optical laser fields, which can measure mechanical motion down to the level where quantum mechanics is needed to describe it.

The performance of mechanical quantum sensors, and in fact our ability to measure their displacement, is however limited by fundamental concepts: Heisenbergs uncertainty principle dictates the smallest vibration that can be resolved. And time-reversal symmetry bounds the measurement rate of a sensor.

In this project, I challenge both limits evading them by making nanomechanical resonators interact strongly with temporally controlled and nano-confined light fields.

The experiments I propose will project a macroscopic mechanical object in a pure quantum state, through the mere act of performing a strong measurement.

I aim to show that such measurements can entangle the objects internal degrees of freedom, and can be used to boost metrology performance.

By breaking time-reversal symmetry through optical control, I seek to enhance the sensitivity of mechanical force sensors.

I will investigate whether the measurement interaction can be employed to coherently convert optical to mechanical states, and to manipulate optical signals down to the single-photon level.The realization of these goals will radically advance mechanical quantum sensing, create coherent interfaces for quantum communication, and establish novel ways to control light and motion at the quantum level.

Moreover, we will gain a new fundamental understanding of metrology and sensing performance in basic systems that transcend the mechanical domain.

Finally, these foundational experiments will bring intriguing quantum effects in full view in tangible objects, and test whether they can in fact exist at such macroscopic scales.

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Stichting Nederlandse Wetenschappelijk Onderzoek Instituten

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