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Paper detail

Experimental realization of optimal energy storage in resonators embedded in scattering media

The ability to enhance light-matter interactions by increasing the energy stored in optical resonators is inherently dependent on their coupling to the incident wavefront. In practice, weak coupling may result from resonators' irregular shapes and/or the scrambling of waves in the surrounding scattering environment. Here, we present a non-invasive wavefront shaping technique providing optimal coupling to resonators. The coherent control of the incident wavefront relies on the lengthening of delay times of waves efficiently exciting the resonator. We demonstrate our concept in microwave experiments by injecting in-situ optimal wavefronts that maximize the energy stored in multiple high-permittivity dielectric scatterers and extended leaky cavities embedded in a complex environment. We expect our framework to find important applications in the enhancement of light-matter interactions in photonic materials as well as to enhance energy harvesting.

preprint2020arXivOpen access
Philipp del HougneRémi SobryOlivier LegrandFabrice MortessagneUlrich KuhlMatthieu Davy
physics.app-phphysics.opticscond-mat.dis-nn
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Philipp del HougneRémi SobryOlivier LegrandFabrice MortessagneUlrich KuhlMatthieu Davy

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