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A heterostructure photonic crystal band edge mode cavity resonating at the wavelengths of monolayer MoS2 photoluminescence is presented. The resonant mode is laterally confined by a mode gap near Γ. Emission enhancement of the integrated monolayer MoS2 is demonstrated experimentally.
We show that the thermal emission of a finite-size blackbody emitter can be enhanced. We experimentally observe a four-fold enhancement of the far-field thermal emission of a carbonblack emitter having an emissivity of 0.85.
We utilize the tight binding approximation within a light cone picture to relate the quality factor of CROWs with that of isolated cavity and to design CROWs with low intrinsic loss across the entire band.
The Jaynes–Cummings (JC) system, which describes the interaction between a cavity and a two-level atom, is one of the most important systems in quantum optics. We obtain analytic solutions for the one- and two-photon transport in a waveguide side-coupled to the JC system using input–output formalism in Fock space. With these results, we discuss the conditions under which the JC system functions as...
The introduction of dynamics in nanophotonic structures creates new opportunities for controlling light. Here we show that one can use just two dynamically tuned cavities to capture a light pulse. We also introduce the use of dynamic modulation to create complete optical isolation.
The single photon transport properties in circuit quantum electrodynamics systems, such as general Fano lineshape, symmetric vacuum Rabi splitting for leaky cavity at resonance, and one-photon switching capability are given using a real-space model Hamiltonian.
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