Reflectionless design of optical elements using impedance-tunable coordinate transformation

We report a new strategy to remove the reflections resulted from the finite embedded transformation-optical design by proposing an impedance-tunable coordinate transformation, on which the functions of impedance coefficients can be derived in the original space without changing the refractive index. Based on the new approach, two-dimensional (2D) reflectionless beam compressors/expanders, bends, shifters and splitters are designed using the modified anisotropic medium. It is found that the reflections can be removed in magnetic response materials for TE polarization or dielectric response materials for TM polarization. The numerical simulations confirm that various reflectionless optical elements can be realized in the pure transformation optics. The impedance-tunable coordinate transformation can be generalized to three-dimensional (3D) cases and be applied to other transformation-optical designs.