Nano-optoelectronics with 2d material heterostructures: fundamentals and applications
Invited
Abstract
I will review both fundamentals and applications associated to the interactions of light with graphene and heterostructures of 2d materials.
We challenge the fundamental limits of quantum light-matter interactions and optical field confinement, down to the scale of a single atom. We observe several levels of quantum and non-local effects in heterostructures.
We will also discuss novel types of (hybrid) heterostructure photodetectors for visible and infrared frequencies, as well as the effects of exciton dissociation on photodetection performances. Finally, interlayer exciton dynamics in TMD heterostructures are being addressed.
We challenge the fundamental limits of quantum light-matter interactions and optical field confinement, down to the scale of a single atom. We observe several levels of quantum and non-local effects in heterostructures.
We will also discuss novel types of (hybrid) heterostructure photodetectors for visible and infrared frequencies, as well as the effects of exciton dissociation on photodetection performances. Finally, interlayer exciton dynamics in TMD heterostructures are being addressed.
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Presenters
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Frank Koppens
ICFO, The Barcelona Institute of Science and Technology, ICFO-Institut de Ciencies Fotoniques
Authors
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Frank Koppens
ICFO, The Barcelona Institute of Science and Technology, ICFO-Institut de Ciencies Fotoniques