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The use of classical dyadic Green's function (DGF) in waveguide quantum electrodynamic (QED) calculations is shown. The nature of the dressed states in the system is discussed to extract the essential physics in single photon scattering from two level artificial atoms in general waveguides.
A thorough study on the finite-difference time-domain (FDTD) simulation of the Maxwell-Schrödinger system in the semi-classical regime is given. For the Maxwell part which is treated classically, an alternative approach directly using the vector and scalar potentials (A and Φ) is taken. This approach is stable in the long wavelength regime and removes the need to extract the potentials at every time...
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