Polaritons are quasi-particles composed of a superposition of excitons and photons that can be created within a strongly coupled optical microcavity. Here, we describe a structure in which a strongly coupled microcavity containing an organic semiconductor is coupled to a second microcavity containing a series of weakly coupled inorganic quantum wells. We show that optical hybridisation occurs between the optical modes of the two cavities, creating a delocalised polaritonic state. By electrically injecting electron–hole pairs into the inorganic quantum-well system, we are able to transfer energy between the cavities and populate organic-exciton polaritons. Our approach represents a new strategy to create highly efficient devices for emerging...
We study two crystalline organic slabs inside a microcavity in the strong coupling regime. Using a m...
Two-dimensional semiconductors inside optical microcavities have emerged as a versatile platform to ...
Two-dimensional semiconductors inside optical microcavities have emerged as a versatile platform to ...
Polaritons are quasi-particles composed of a superposition of excitons and photons that can be creat...
Funding: Authors thank the U.K. EPSRC for funding this work via the Programme Grant ‘Hybrid Polarito...
Semiconductor microcavities represent a rich playground for the investigation and exploitation of fu...
Strongly coupled optical microcavities containing different exciton states permit the creation of hy...
Organic materials exhibit exceptional room temperature light emitting characteristics and enormous e...
We study hybrid organic-inorganic microcavities in the strong coupling regime. The optically resonan...
We use a microscopic theory to study hybrid organic-inorganic microcavities in the strong coupling r...
In this thesis, an investigation into the optical properties of strongly-coupled inorganic and organ...
Strong light matter coupling between excitons and microcavity photons, as described in the framework...
Exciton-polaritons are quasiparticles consisting of a linear superposition of photonic and excitonic...
We consider nanostructures that consist of both organic and inorganic materials, in particular, hete...
Strong light matter coupling between excitons and microcavity photons, as described in the framework...
We study two crystalline organic slabs inside a microcavity in the strong coupling regime. Using a m...
Two-dimensional semiconductors inside optical microcavities have emerged as a versatile platform to ...
Two-dimensional semiconductors inside optical microcavities have emerged as a versatile platform to ...
Polaritons are quasi-particles composed of a superposition of excitons and photons that can be creat...
Funding: Authors thank the U.K. EPSRC for funding this work via the Programme Grant ‘Hybrid Polarito...
Semiconductor microcavities represent a rich playground for the investigation and exploitation of fu...
Strongly coupled optical microcavities containing different exciton states permit the creation of hy...
Organic materials exhibit exceptional room temperature light emitting characteristics and enormous e...
We study hybrid organic-inorganic microcavities in the strong coupling regime. The optically resonan...
We use a microscopic theory to study hybrid organic-inorganic microcavities in the strong coupling r...
In this thesis, an investigation into the optical properties of strongly-coupled inorganic and organ...
Strong light matter coupling between excitons and microcavity photons, as described in the framework...
Exciton-polaritons are quasiparticles consisting of a linear superposition of photonic and excitonic...
We consider nanostructures that consist of both organic and inorganic materials, in particular, hete...
Strong light matter coupling between excitons and microcavity photons, as described in the framework...
We study two crystalline organic slabs inside a microcavity in the strong coupling regime. Using a m...
Two-dimensional semiconductors inside optical microcavities have emerged as a versatile platform to ...
Two-dimensional semiconductors inside optical microcavities have emerged as a versatile platform to ...