Optimal non-classical correlations of light with a levitated nano-sphere
- URL: http://arxiv.org/abs/2006.15050v2
- Date: Fri, 2 Oct 2020 17:21:01 GMT
- Title: Optimal non-classical correlations of light with a levitated nano-sphere
- Authors: Alexander Pitchford, Andrey A. Rakhubovsky, Rick Mukherjee, Darren W.
Moore, Fr\'ed\'eric Sauvage, Daniel Burgarth, Radim Filip, and Florian
Mintert
- Abstract summary: Nonclassical correlations provide a resource for many applications in quantum technology.
Optomechanical systems can be arranged to generate quantum entanglement between the mechanics and a mode of travelling light.
We propose automated optimisation of the production of quantum correlations in such a system.
- Score: 48.7576911714538
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: Nonclassical correlations provide a resource for many applications in quantum
technology as well as providing strong evidence that a system is indeed
operating in the quantum regime. Optomechanical systems can be arranged to
generate quantum entanglement between the mechanics and a mode of travelling
light. Here we propose automated optimisation of the production of quantum
correlations in such a system, beyond what can be achieved through analytical
methods, by applying Bayesian optimisation to the control parameters. Two-mode
optomechanical squeezing experiment is simulated using a detailed theoretical
model of the system, while the Bayesian optimisation process modifies the
controllable parameters in order to maximise the non-classical two-mode
squeezing and its detection, independently of the inner workings of the model.
The Bayesian optimisation treats the simulations or the experiments as a black
box. This we refer to as \emph{theory-blind} optimisation, and the optimisation
process is designed to be unaware of whether it is working with a simulation or
the actual experimental setup. We find that in the experimentally relevant
thermal regimes, the ability to vary and optimise a broad array of control
parameters provides access to large values of two-mode squeezing that would
otherwise be difficult or intractable to discover. In particular we observe
that modulation of the driving frequency around the resonant sideband, when
added to the set of control parameters, produces strong nonclassical
correlations greater on average than the maximum achieved by optimising over
the remaining parameters. We also find that using our optimisation approach
raises the upper limit to the thermal regime in which squeezing can be
achieved. This extends the range of experimental setups in which non-classical
correlations could be generated beyond the region of high quantum
cooperativity.
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